{"database": "openregs", "table": "cfr_sections", "is_view": false, "human_description_en": "where part_number = 430 sorted by section_id", "rows": [["10:10:3.0.1.4.18.1.11.1", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "A", "Subpart A\u2014General Provisions", "", "\u00a7 430.1 Purpose and scope.", "DOE", "", "", "[62 FR 29237, May 29, 1997]", "This part establishes the regulations for the implementation of part B of title III (42 U.S.C. 6291-6309) of the Energy Policy and Conservation Act (Pub. L. 94-163), as amended by Pub. L. 95-619, Pub. L. 100-12, Pub. L. 100-357, and Pub. L. 102-486 which establishes an energy conservation program for consumer products other than automobiles."], ["10:10:3.0.1.4.18.1.11.2", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "A", "Subpart A\u2014General Provisions", "", "\u00a7 430.2 Definitions.", "DOE", "", "", "[42 FR 27898, June 1, 1977]", "For purposes of this part, words shall be defined as provided for in section 321 of the Act and as follows\u2014\n\n3-Way incandescent lamp means an incandescent lamp that\u2014\n\n(1) Employs two filaments, operated separately and in combination, to provide three light levels; and\n\n(2) Is designated on the lamp packaging and marketing materials as being a 3-way incandescent lamp.\n\n700 series fluorescent lamp means a fluorescent lamp with a color rendering index (measured according to the test procedures outlined in Appendix R to subpart B of this part) that is in the range (inclusive) of 70 to 79.\n\nAct means the Energy Policy and Conservation Act of 1975, as amended, 42 U.S.C. 6291-6316.\n\nActivation lock means a control mechanism (either by a physical device directly on the water heater or a control system integrated into the water heater) that is locked by default and contains a physical, software, or digital communication that must be activated with an activation key to enable to the product to operate at its designed specifications and capabilities and without which the activation of the product will provide not greater than 50 percent of the rated first hour delivery of hot water certified by the manufacturer.\n\nActive mode means the condition in which an energy-using product\u2014\n\n(1) Is connected to a main power source;\n\n(2) Has been activated; and\n\n(3) Provides one or more main functions.\n\nAir cleaner means a product for improving indoor air quality, other than a central air conditioner, room air conditioner, portable air conditioner, dehumidifier, or furnace, that is an electrically-powered, self-contained, mechanically encased assembly that contains means to remove, destroy, or deactivate particulates, VOC, and/or microorganisms from the air. It excludes products that operate solely by means of ultraviolet light without a fan for air circulation.\n\nAll-refrigerator means a refrigerator that does not include a compartment capable of maintaining compartment temperatures below 32 \u00b0F (0 \u00b0C) as determined according to the provisions in \u00a7 429.14(d)(2) of this chapter. It may include a compartment of 0.50 cubic-foot capacity (14.2 liters) or less for the freezing and storage of ice.\n\nAnnual fuel utilization efficiency means the efficiency descriptor for furnaces and boilers, determined using test procedures prescribed under section 323 and based on the assumption that all\u2014\n\n(1) Weatherized warm air furnaces or boilers are located out-of-doors;\n\n(2) Warm air furnaces which are not weatherized are located indoors and all combustion and ventilation air is admitted through grill or ducts from the outdoors and does not communicate with air in the conditioned space;\n\n(3) Boilers which are not weatherized are located within the heated space.\n\nANSI means the American National Standards Institute.\n\nAppliance lamp means any lamp that\u2014\n\n(1) Is specifically designed to operate in a household appliance and has a maximum wattage of 40 watts (including an oven lamp, refrigerator lamp, and vacuum cleaner lamp); and\n\n(2) When sold at retail, is designated and marketed for the intended application, with\n\n(i) The designation on the lamp packaging; and\n\n(ii) Marketing materials that identify the lamp as being for appliance use.\n\nASME means the American Society of Mechanical Engineers.\n\nAutomatic clothes washer means a class of clothes washer which has a control system which is capable of scheduling a preselected combination of operations, such as regulation of water temperature, regulation of the water fill level, and performance of wash, rinse, drain, and spin functions without the need for user intervention subsequent to the initiation of machine operation. Some models may require user intervention to initiate these different segments of the cycle after the machine has begun operation, but they do not require the user to intervene to regulate the water temperature by adjusting the external water faucet valves.\n\nBack-up battery charger means a battery charger excluding UPSs:\n\n(1) That is embedded in a separate end-use product that is designed to continuously operate using mains power (including end-use products that use external power supplies); and\n\n(2) Whose sole purpose is to recharge a battery used to maintain continuity of power in order to provide normal or partial operation of a product in case of input power failure.\n\nBallast means a device used with an electric discharge lamp to obtain necessary circuit conditions (voltage, current, and waveform) for starting and operating.\n\nBallast efficacy factor means the relative light output divided by the power input of a fluorescent lamp ballast, as measured under test conditions specified in ANSI Standard C82.2-1984.\n\nBallast luminous efficiency means the total fluorescent lamp arc power divided by the fluorescent lamp ballast input power multiplied by the appropriate frequency adjustment factor, as defined in appendix Q of subpart B of this part.\n\nBaseboard electric heater means an electric heater which is intended to be recessed in or surface mounted on walls at floor level, which is characterized by long, low physical dimensions, and which transfers heat by natural convection and/or radiation.\n\nBasic model means all units of a given type of covered product (or class thereof) manufactured by one manufacturer; having the same primary energy source; and, which have essentially identical electrical, physical, and functional (or hydraulic) characteristics that affect energy consumption, energy efficiency, water consumption, or water efficiency; and\n\n(1) With respect to general service fluorescent lamps, general service incandescent lamps, and incandescent reflector lamps: Lamps that have essentially identical light output and electrical characteristics\u2014including lamp efficacy and color rendering index (CRI).\n\n(2) With respect to faucets and showerheads: Have the identical flow control mechanism attached to or installed within the fixture fittings, or the identical water-passage design features that use the same path of water in the highest flow mode.\n\n(3) With respect to furnace fans: Are marketed and/or designed to be installed in the same type of installation; and\n\n(4) With respect to central air conditioners and central air conditioning heat pumps essentially identical electrical, physical, and functional (or hydraulic) characteristics means:\n\n(i) For split systems manufactured by outdoor unit manufacturers (OUMs): all individual combinations having the same model of outdoor unit, which means comparably performing compressor(s) [a variation of no more than five percent in displacement rate (volume per time) as rated by the compressor manufacturer, and no more than five percent in capacity and power input for the same operating conditions as rated by the compressor manufacturer], outdoor coil(s) [no more than five percent variation in face area and total fin surface area; same fin material; same tube material], and outdoor fan(s) [no more than ten percent variation in air flow and no more than twenty percent variation in power input];\n\n(ii) For split systems having indoor units manufactured by independent coil manufacturers (ICMs): all individual combinations having comparably performing indoor coil(s) [plus or minus one square foot face area, plus or minus one fin per inch fin density, and the same fin material, tube material, number of tube rows, tube pattern, and tube size]; and\n\n(iii) For single-package systems: all individual models having comparably performing compressor(s) [no more than five percent variation in displacement rate (volume per time) rated by the compressor manufacturer, and no more than five percent variations in capacity and power input rated by the compressor manufacturer corresponding to the same compressor rating conditions], outdoor coil(s) and indoor coil(s) [no more than five percent variation in face area and total fin surface area; same fin material; same tube material], outdoor fan(s) [no more than ten percent variation in outdoor air flow], and indoor blower(s) [no more than ten percent variation in indoor air flow, with no more than twenty percent variation in fan motor power input];\n\n(iv) Except that,\n\n(A) for single-package systems and single-split systems, manufacturers may instead choose to make each individual model/combination its own basic model provided the testing and represented value requirements in 10 CFR 429.16 of this chapter are met; and\n\n(B) For multi-split, multi-circuit, and multi-head mini-split combinations, a basic model may not include both individual small-duct, high velocity (SDHV) combinations and non-SDHV combinations even when they include the same model of outdoor unit. The manufacturer may choose to identify specific individual combinations as additional basic models.\n\nBasic-voltage external power supply means an external power supply that is not a low-voltage external power supply.\n\nBatch means a collection of production units of a basic model from which a batch sample is selected.\n\nBatch sample means the collection of units of the same basic model from which test units are selected.\n\nBatch sample size means the number of units in a batch sample.\n\nBatch size means the number of units in a batch.\n\nBattery charger means a device that charges batteries for consumer products, including battery chargers embedded in other consumer products.\n\nBlack light lamp means a lamp that is designed and marketed as a black light lamp and is an ultraviolet lamp with the highest radiant power peaks in the UV-A band (315 to 400 nm) of the electromagnetic spectrum.\n\nBlowout action means a means of flushing a water closet whereby a jet of water directed at the bowl outlet opening pushes the bowl contents into the upleg, over the weir, and into the gravity drainage system.\n\nBlowout bowl means a non-siphonic water closet bowl with an integral flushing rim, a trap at the rear of the bowl, and a visible or concealed jet that operates with a blowout action.\n\nBPAR incandescent reflector lamp means a reflector lamp as shown in figure C78.21-278 of ANSI C78.21-2016 (incorporated by reference; see \u00a7 430.3).\n\nBR30 means a BR incandescent reflector lamp with a diameter of 30/8ths of an inch.\n\nBR40 means a BR incandescent reflector lamp with a diameter of 40/8ths of an inch.\n\nBR incandescent reflector lamp means a reflector lamp that has a bulged section below the bulb's major diameter and above its approximate base line as shown in Figure 1 (RB) of ANSI C78.79-2020. A BR30 lamp has a lamp wattage of 85 or less than 66 and a BR40 lamp has a lamp wattage of 120 or less.\n\nBtu means British thermal unit, which is the quantity of heat required to raise the temperature of one pound of water one degree Fahrenheit.\n\nBug lamp means a lamp that is designed and marketed as a bug lamp, has radiant power peaks above 550 nm on the electromagnetic spectrum, and has a visible yellow coating.\n\nBuilt-in compact cooler means any cooler with a total refrigerated volume less than 7.75 cubic feet and no more than 24 inches in depth, excluding doors, handles, and custom front panels, that is designed, intended, and marketed exclusively to be:\n\n(1) Installed totally encased by cabinetry or panels that are attached during installation;\n\n(2) Securely fastened to adjacent cabinetry, walls or floor;\n\n(3) Equipped with unfinished sides that are not visible after installation; and\n\n(4) Equipped with an integral factory-finished face or built to accept a custom front panel.\n\nBuilt-in cooler means any cooler with a total refrigerated volume of 7.75 cubic feet or greater and no more than 24 inches in depth, excluding doors, handles, and custom front panels; that is designed, intended, and marketed exclusively to be:\n\n(1) Installed totally encased by cabinetry or panels that are attached during installation;\n\n(2) Securely fastened to adjacent cabinetry, walls or floor;\n\n(3) Equipped with unfinished sides that are not visible after installation; and\n\n(4) Equipped with an integral factory-finished face or built to accept a custom front panel.\n\nBuilt-in refrigerator/refrigerator-freezer/freezer means any refrigerator, refrigerator-freezer or freezer with 7.75 cubic feet or greater total volume and 24 inches or less depth not including doors, handles, and custom front panels; with sides which are not finished and not designed to be visible after installation; and that is designed, intended, and marketed exclusively (1) To be installed totally encased by cabinetry or panels that are attached during installation, (2) to be securely fastened to adjacent cabinetry, walls or floor, and (3) to either be equipped with an integral factory-finished face or accept a custom front panel.\n\nCandelabra base incandescent lamp means a lamp that uses a candelabra screw base as described in ANSI C81.61, Specifications for Electric Bases, common designations E11 and E12 (incorporated by reference; see \u00a7 430.3).\n\nCasement-only means a room air conditioner designed for mounting in a casement window with an encased assembly with a width of 14.8 inches or less and a height of 11.2 inches or less.\n\nCasement-slider means a room air conditioner with an encased assembly designed for mounting in a sliding or casement window with a width of 15.5 inches or less.\n\nCeiling electric heater means an electric heater which is intended to be recessed in, surface mounted on, or hung from a ceiling, and which transfers heat by radiation and/or convection (either natural or forced).\n\nCeiling fan means a nonportable device that is suspended from a ceiling for circulating air via the rotation of fan blades. For the purpose of this definition:\n\n(1) Circulating air means the discharge of air in an upward or downward direction. A ceiling fan that has a ratio of fan blade span (in inches) to maximum rotation rate (in revolutions per minute) greater than 0.06 provides circulating air.\n\n(2) For all other ceiling fan related definitions, see appendix U to this subpart.\n\nCeiling fan light kit means equipment designed to provide light from a ceiling fan that can be\u2014\n\n(1) Integral, such that the equipment is attached to the ceiling fan prior to the time of retail sale; or\n\n(2) Attachable, such that at the time of retail sale the equipment is not physically attached to the ceiling fan, but may be included inside the ceiling fan at the time of sale or sold separately for subsequent attachment to the fan.\n\nCentral air conditioner or central air conditioning heat pump means a product, other than a packaged terminal air conditioner, packaged terminal heat pump, single-phase single-package vertical air conditioner with cooling capacity less than 65,000 Btu/h, single-phase single-package vertical heat pump with cooling capacity less than 65,000 Btu/h, computer room air conditioner, or unitary dedicated outdoor air system as these equipment categories are defined at \u00a7 431.92 of this chapter, which is powered by single phase electric current, air cooled, rated below 65,000 Btu per hour, not contained within the same cabinet as a furnace, the rated capacity of which is above 225,000 Btu per hour, and is a heat pump or a cooling unit only. A central air conditioner or central air conditioning heat pump may consist of: A single-package unit; an outdoor unit and one or more indoor units; an indoor unit only; or an outdoor unit with no match. In the case of an indoor unit only or an outdoor unit with no match, the unit must be tested and rated as a system (combination of both an indoor and an outdoor unit).\n\nCentral system humidifier means a class of humidifier designed to add moisture into the air stream of a heating system.\n\nCirculating water heater means a water heater that does not have an operational scheme in which the burner, heating element, or compressor initiates and/or terminates heating based on sensing flow; has a water temperature sensor located at the inlet or the outlet of the water heater or in a separate storage tank that is the primary means of initiating and terminating heating; and must be used in combination with a recirculating pump to circulate water and either a separate storage tank or water circulation loop in order to achieve the water flow and temperature conditions recommended in the manufacturer's installation and operation instructions. A circulating water heater constitutes a storage-type water heater.\n\nClass A external power supply \u2014\n\n(1) Means a device that\u2014\n\n(i) Is designed to convert line voltage AC input into lower voltage AC or DC output;\n\n(ii) Is able to convert to only one AC or DC output voltage at a time;\n\n(iii) Is sold with, or intended to be used with, a separate end-use product that constitutes the primary load;\n\n(iv) Is contained in a separate physical enclosure from the end-use product;\n\n(v) Is connected to the end-use product via a removable or hard-wired male/female electrical connection, cable, cord, or other wiring; and\n\n(vi) Has nameplate output power that is less than or equal to 250 watts;\n\n(2) But, does not include any device that\u2014\n\n(i) Requires Federal Food and Drug Administration listing and approval as a medical device in accordance with section 513 of the Federal Food, Drug, and Cosmetic Act (21 U.S.C. 360(c)); or\n\n(ii) Powers the charger of a detachable battery pack or charges the battery of a product that is fully or primarily motor operated.\n\nClothes washer means a consumer product designed to clean clothes, utilizing a water solution of soap and/or detergent and mechanical agitation or other movement, and must be one of the following classes: automatic clothes washers, semi-automatic clothes washers, and other clothes washers.\n\nCold temperature fluorescent lamp means a fluorescent lamp specifically designed to start at \u221220 \u00b0F when used with a ballast conforming to the requirements of ANSI C78.81 (incorporated by reference; see \u00a7 430.3) and ANSI C78.901 (incorporated by reference; see \u00a7 430.3), and is expressly designated as a cold temperature lamp both in markings on the lamp and in marketing materials, including catalogs, sales literature, and promotional material.\n\nColor Rendering Index or CRI means the measured degree of color shift objects undergo when illuminated by a light source as compared with the color of those same objects when illuminated by a reference source of comparable color temperature.\n\nColored fluorescent lamp means a fluorescent lamp designated and marketed as a colored lamp and not designed or marketed for general illumination applications with either of the following characteristics:\n\n(1) A CRI less than 40, as determined according to the method set forth in CIE Publication 13.3 (incorporated by reference; see \u00a7 430.3); or\n\n(2) A correlated color temperature less than 2,500K or greater than 7,000K as determined according to the method set forth in IES LM-9 (incorporated by reference; see \u00a7 430.3).\n\nColored incandescent lamp means an incandescent lamp designated and marketed as a colored lamp that has\u2014\n\n(1) A color rendering index of less than 50, as determined according to the test method given in CIE 13.3 (incorporated by reference; see \u00a7 430.3); or\n\n(2) A correlated color temperature of less than 2,500K, or greater than 4,600K, where correlated temperature is computed according to the \u201cComputation of Correlated Color Temperature and Distribution Temperature,\u201d Journal of the Optical Society of America, (incorporated by reference; see \u00a7 430.3).\n\nColored lamp means a colored fluorescent lamp, a colored incandescent lamp, or a lamp designed and marketed as a colored lamp with either of the following characteristics (if multiple modes of operation are possible [such as variable CCT], either of the below characteristics must be maintained throughout all modes of operation):\n\n(1) A CRI less than 40, as determined according to the method set forth in CIE 13.3 (incorporated by reference; see \u00a7 430.3); or\n\n(2) A CCT less than 2,500 K or greater than 7,000 K.\n\nCombination cooler refrigeration product means any cooler-refrigerator, cooler-refrigerator-freezer, or cooler-freezer.\n\nCombined-duct portable air conditioner means a portable air conditioner for which condenser inlet and outlet air streams flow through separate ducts housed in a single duct structure.\n\nCommercial and industrial power supply means a power supply that is used to convert electric current into DC or lower-voltage AC current, is not distributed in commerce for use with a consumer product, and may include any of the following characteristics:\n\n(1) A power supply that requires 3-phase input power and that is incapable of operating on household mains electricity;\n\n(2) A DC-DC-only power supply that is incapable of operating on household mains electricity;\n\n(3) A power supply with a fixed, non-removable connection to an end-use device that is not a consumer product as defined under the Act;\n\n(4) A power supply whose output connector is uniquely shaped to fit only an end-use device that is not a consumer product;\n\n(5) A power supply that cannot be readily connected to an end-use device that is a consumer product without significant modification or customization of the power supply itself or the end-use device;\n\n(6) A power supply packaged with an end-use device that is not a consumer product, as evidenced by either:\n\n(i) Such device being certified as, or declared to be in conformance with, a specific standard applicable only to non-consumer products. For example, a power supply model intended for use with an end-use device that is certified to the following standards would not meet the EPCA definition of an EPS:\n\n(A) CISPR 11 (Class A Equipment), \u201cIndustrial, scientific and medical equipment\u2014Radio-frequency disturbance\u2014Limits and methods of measurement\u201d;\n\n(B) UL 1480A, \u201cStandard for Speakers for Commercial and Professional Use\u201d;\n\n(C) UL 813, \u201cStandard for Commercial Audio Equipment\u201d; and\n\n(D) UL 1727, \u201cStandard for Commercial Electric Personal Grooming Appliances\u201d; or\n\n(ii) Such device being excluded or exempted from inclusion within, or conformance with, a law, regulation, or broadly-accepted industry standard where such exclusion or exemption applies only to non-consumer products;\n\n(7) A power supply distributed in commerce for use with an end-use device where:\n\n(i) The end-use device is not a consumer product, as evidenced by either the circumstances in paragraph (6)(i) or (ii) of this definition; and\n\n(ii) The end-use device for which the power supply is distributed in commerce is reasonably disclosed to the public, such as by identification of the end-use device on the packaging for the power supply, documentation physically present with the power supply, or on the manufacturer's or private labeler's public website; or\n\n(8) A power supply that is not marketed for residential or consumer use, and that is clearly marked (or, alternatively, the packaging of the individual power supply, the shipping container of multiple such power supplies, or associated documentation physically present with the power supply when distributed in commerce is clearly marked) \u201cFOR USE WITH COMMERCIAL OR INDUSTRIAL EQUIPMENT ONLY\u201d or \u201cNOT FOR RESIDENTIAL OR CONSUMER USE,\u201d with the marking designed and applied so that the marking will be visible and legible during customary conditions for the item on which the marking is placed.\n\nCompact fluorescent lamp (CFL) means an integrated or non-integrated single-base, low-pressure mercury, electric-discharge source in which a fluorescing coating transforms some of the ultraviolet energy generated by the mercury discharge into light; the term does not include circline or U-shaped lamps.\n\nCompact refrigerator/refrigerator-freezer/freezer means any refrigerator, refrigerator-freezer or freezer with a total refrigerated volume of less than 7.75 cubic feet (220 liters). (Total refrigerated volume shall be determined using the applicable test procedure appendix prescribed in subpart B of this part.)\n\nComponent video means a video display interface as defined in the Consumer Electronics Association's (CEA) standard, CEA-770.3-D (incorporated by reference; see \u00a7 430.3).\n\nComposite video means a video display interface that uses Radio Corporation of America (RCA) connections carrying a signal defined by the Society of Motion Picture and Television Engineers' (SMPTE) standard, SMPTE 170M-2004 (incorporated by reference; see \u00a7 430.3) for regions that support a power frequency of 59.94 Hz or International Telecommunication Union's (ITU) standard, ITU-R BT 470-6 (incorporated by reference; see \u00a7 430.3) for regions that support a power frequency of 50 Hz.\n\nConsumer product means any article (other than an automobile, as defined in Section 501(1) of the Motor Vehicle Information and Cost Savings Act):\n\n(1) Of a type\u2014\n\n(i) Which in operation consumes, or is designed to consume, energy or, with respect to showerheads, faucets, water closets, and urinals, water; and\n\n(ii) Which, to any significant extent, is distributed in commerce for personal use or consumption by individuals;\n\n(2) Without regard to whether such article of such type is in fact distributed in commerce for personal use or consumption by an individual, except that such term includes fluorescent lamp ballasts, general service fluorescent lamps, incandescent reflector lamps, showerheads, faucets, water closets, and urinals distributed in commerce for personal or commercial use or consumption.\n\nConsumer refrigeration product means a refrigerator, refrigerator-freezer, freezer, or miscellaneous refrigeration product.\n\nContractor means a person (other than the manufacturer or distributor) who sells to and/or installs for an end user a central air conditioner subject to regional standards. The term \u201cend user\u201d means the entity that purchases or selects for purchase the central air conditioner. Some examples of typical \u201cend users\u201d are homeowners, building owners, building managers, and property developers.\n\nControlling parameter means a measurable quantity or an algorithm (such as temperature or usage pattern) used for inferring heating load to a residential boiler, which would then result in incremental changes in boiler supply water temperature.\n\nConvection microwave oven means a microwave oven that incorporates convection features and any other means of cooking in a single compartment.\n\nConventional cooking top means a category of cooking products which is a household cooking appliance consisting of a horizontal surface containing one or more surface units that utilize a gas flame, electric resistance heating, or electric inductive heating. This includes any conventional cooking top component of a combined cooking product.\n\nConventional oven means a category of cooking products which is a household cooking appliance consisting of one or more compartments intended for the cooking or heating of food by means of either a gas flame or electric resistance heating. It does not include portable or countertop ovens which use electric resistance heating for the cooking or heating of food and are designed for an electrical supply of approximately 120 volts. This includes any conventional oven(s) component of a combined cooking product.\n\nConventional room air cleaner means an air cleaner that\u2014\n\n(1) Is a portable or wall mounted (fixed) unit, excluding ceiling mounted unit, that plugs into an electrical outlet;\n\n(2) Operates with a fan for air circulation; and\n\n(3) Contains means to remove, destroy, and/or deactivate particulates. The term portable is as defined in section 2.1.3.1 of AHAM AC-7-2022 (incorporated by reference; see \u00a7 430.3) and fixed is as defined in section 2.1.3.2 of AHAM AC-7-2022.\n\nCooking products means consumer products that are used as the major household cooking appliances. They are designed to cook or heat different types of food by one or more of the following sources of heat: Gas, electricity, or microwave energy. Each product may consist of a horizontal cooking top containing one or more surface units and/or one or more heating compartments.\n\nCooler means a cabinet, used with one or more doors, that has a source of refrigeration capable of operating on single-phase, alternating current and is capable of maintaining compartment temperatures either:\n\n(1) No lower than 39 \u00b0F (3.9 \u00b0C); or\n\n(2) In a range that extends no lower than 37 \u00b0F (2.8 \u00b0C) but at least as high as 60 \u00b0F (15.6 \u00b0C) as determined according to the applicable provisions in \u00a7 429.61(d)(2) of this chapter.\n\nCooler-all-refrigerator means a cooler-refrigerator that does not include a compartment capable of maintaining compartment temperatures below 32 \u00b0F (0 \u00b0C) as determined according to the provisions in \u00a7 429.61(d)(2) of this chapter. It may include a compartment of 0.50 cubic-foot capacity (14.2 liters) or less for the freezing and storage of ice.\n\nCooler-freezer means a cabinet, used with one or more doors, that has a source of refrigeration that requires single-phase, alternating current electric energy input only, and consists of two or more compartments, including at least one cooler compartment as defined in appendix A of subpart B of this part, where the remaining compartment(s) are capable of maintaining compartment temperatures at 0 \u00b0F (\u221217.8 \u00b0C) or below as determined according to the provisions in \u00a7 429.61(d)(2) of this chapter.\n\nCooler-refrigerator means a cabinet, used with one or more doors, that has a source of refrigeration that requires single-phase, alternating current electric energy input only, and consists of two or more compartments, including at least one cooler compartment as defined in appendix A of subpart B of this part, where:\n\n(1) At least one of the remaining compartments is not a cooler compartment as defined in appendix A of subpart B of this part and is capable of maintaining compartment temperatures above 32 \u00b0F (0 \u00b0C) and below 39 \u00b0F (3.9 \u00b0C) as determined according to \u00a7 429.61(d)(2) of this chapter;\n\n(2) The cabinet may also include a compartment capable of maintaining compartment temperatures below 32 \u00b0F (0 \u00b0C) as determined according to \u00a7 429.61(d)(2) of this chapter; but\n\n(3) The cabinet does not provide a separate low temperature compartment capable of maintaining compartment temperatures below 8 \u00b0F (\u221213.3 \u00b0C) as determined according to \u00a7 429.61(d)(2) of this chapter.\n\nCooler-refrigerator-freezer means a cabinet, used with one or more doors, that has a source of refrigeration that requires single-phase, alternating current electric energy input only, and consists of three or more compartments, including at least one cooler compartment as defined in appendix A of subpart B of this part, where:\n\n(1) At least one of the remaining compartments is not a cooler compartment as defined in appendix A of subpart B of this part and is capable of maintaining compartment temperatures above 32 \u00b0F (0 \u00b0C) and below 39 \u00b0F (3.9 \u00b0C) as determined according to \u00a7 429.61(d)(2) of this chapter; and\n\n(2) At least one other compartment is capable of maintaining compartment temperatures below 8 \u00b0F (\u221213.3 \u00b0C) and may be adjusted by the user to a temperature of 0 \u00b0F (\u221217.8 \u00b0C) or below as determined according to \u00a7 429.61(d)(2) of this chapter.\n\nCorrelated color temperature (CCT) means the absolute temperature of a blackbody whose chromaticity most nearly resembles that of the light source.\n\nCovered product means a consumer product\u2014\n\n(1) Of a type specified in section 322 of the Act; or\n\n(2) That is an air cleaner, battery charger, ceiling fan, ceiling fan light kit, dehumidifier, external power supply, medium base compact fluorescent lamp, miscellaneous refrigeration product, portable air conditioner, portable electric spa, or torchiere.\n\nDealer means a type of contractor, generally with a relationship with one or more specific manufacturers.\n\nDehumidifier means a product, other than a portable air conditioner, room air conditioner, or packaged terminal air conditioner, that is a self-contained, electrically operated, and mechanically encased assembly consisting of\u2014\n\n(1) A refrigerated surface (evaporator) that condenses moisture from the atmosphere;\n\n(2) A refrigerating system, including an electric motor;\n\n(3) An air-circulating fan; and\n\n(4) A means for collecting or disposing of the condensate.\n\nDesign voltage with respect to an incandescent lamp means:\n\n(1) The voltage marked as the intended operating voltage;\n\n(2) The mid-point of the voltage range if the lamp is marked with a voltage range; or\n\n(3) 120 V if the lamp is not marked with a voltage or voltage range.\n\nDesigned and marketed means exclusively designed to fulfill the indicated application and, when distributed in commerce, designated and marketed solely for that application, with the designation prominently displayed on the packaging and all publicly available documents ( e.g., product literature, catalogs, and packaging labels). This definition applies to the following covered lighting products: Fluorescent lamp ballasts; fluorescent lamps; general service fluorescent lamps; general service incandescent lamps; general service lamps; incandescent lamps; incandescent reflector lamps; compact fluorescent lamps (including medium base compact fluorescent lamps); LED lamps; and specialty application mercury vapor lamp ballasts.\n\nDetachable battery means a battery that is\u2014\n\n(1) Contained in a separate enclosure from the product; and\n\n(2) Intended to be removed or disconnected from the product for recharging.\n\nDirect heating equipment means vented home heating equipment and unvented home heating equipment.\n\nDirect operation external power supply means an external power supply that can operate a consumer product that is not a battery charger without the assistance of a battery.\n\nDirect vent system means a system supplied by a manufacturer which provides outdoor air or air from an unheated space (such as an attic or crawl space) directly to a furnace or vented heater for combustion and for draft relief if the unit is equipped with a draft control device.\n\nDishwasher means a cabinet-like appliance which with the aid of water and detergent, washes, rinses, and dries (when a drying process is included) dishware, glassware, eating utensils, and most cooking utensils by chemical, mechanical and/or electrical means and discharges to the plumbing drainage system.\n\nDistributor means a person (other than a manufacturer or retailer) to whom a consumer appliance product is delivered or sold for purposes of distribution in commerce.\n\nDOE means the Department of Energy.\n\nDual-duct portable air conditioner means a portable air conditioner that draws some or all of the condenser inlet air from outside the conditioned space through a duct attached to an adjustable window bracket, may draw additional condenser inlet air from the conditioned space, and discharges the condenser outlet air outside the conditioned space by means of a separate duct attached to an adjustable window bracket.\n\nDual-flush water closet means a water closet incorporating a feature that allows the user to flush the water closet with either a reduced or a full volume of water.\n\nElectric boiler means an electrically powered furnace designed to supply low pressure steam or hot water for space heating application. A low pressure steam boiler operates at or below 15 pounds per square inch gauge (psig) steam pressure; a hot water boiler operates at or below 160 psig water pressure and 250 \u00b0F. water temperature.\n\nElectric central furnace means a furnace designed to supply heat through a system of ducts with air as the heating medium, in which heat is generated by one or more electric resistance heating elements and the heated air is circulated by means of a fan or blower.\n\nElectric circulating water heater means a circulating water heater with an input of 12 kW or less (including heat pump-only units with power inputs of no more than 24 A at 250 V).\n\nElectric clothes dryer means a cabinet-like appliance designed to dry fabrics in a tumble-type drum with forced air circulation. The heat source is electricity and the drum and blower(s) are driven by an electric motor(s).\n\nElectric heater means an electric appliance which is a class of unvented home heating equipment in which heat is generated from electrical energy and dissipated by convection and radiation and includes baseboard electric heaters, ceiling electric heaters, floor electric heaters, portable electric heaters, and wall electric heaters.\n\nElectric instantaneous water heater means a water heater that uses electricity as the energy source, has a nameplate input rating of 12 kW or less, and contains no more than one gallon of water per 4,000 Btu per hour of input.\n\nElectric pool heater means a pool heater other than an electric spa heater that uses electricity as its primary energy source.\n\nElectric spa heater means a pool heater that\u2014\n\n(1) Uses electricity as its primary energy source;\n\n(2) Has an output capacity (as measured according to appendix P to subpart B of part 430) of 11 kW or less; and\n\n(3) Is designed to be installed within a portable electric spa.\n\nElectric storage water heater means a water heater that uses electricity as the energy source, has a nameplate input rating of 12 kW or less, and contains more than one gallon of water per 4,000 Btu per hour of input.\n\nElectromechanical hydraulic water closet means any water closet that utilizes electrically operated devices, such as, but not limited to, air compressors, pumps, solenoids, motors, or macerators in place of or to aid gravity in evacuating waste from the toilet bowl.\n\nElectronic ballast means a device that uses semiconductors as the primary means to control lamp starting and operation.\n\nEnergy conservation standard means any standards meeting the definitions of that term in 42 U.S.C. 6291(6) and 42 U.S.C. 6311(18) as well as any other water conservation standards and design requirements found in this part or parts 430 or 431.\n\nEnergy use of a type of consumer product which is used by households means the energy consumed by such product within housing units occupied by households (such as energy for space heating and cooling, water heating, the operation of appliances, or other activities of the households), and includes energy consumed on any property that is contiguous with a housing unit and that is used primarily by the household occupying the housing unit (such as energy for exterior lights or heating a pool).\n\nER incandescent reflector lamp means a reflector lamp that has an elliptical section below the major diameter of the bulb and above the approximate base line of the bulb, as shown in Figure 1 (RE) of ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3) and product space drawings shown in ANSI C78.21-2016 (incorporated by reference; see \u00a7 430.3).\n\nER30 means an ER incandescent reflector lamp with a diameter of 30/8ths of an inch.\n\nER40 means an ER incandescent reflector lamp with a diameter of 40/8ths of an inch.\n\nEstimated annual operating cost means the aggregate retail cost of the energy which is likely to be consumed annually, and in the case of showerheads, faucets, water closets, and urinals, the aggregate retail cost of water and wastewater treatment services likely to be incurred annually, in representative use of a consumer product, determined in accordance with Section 323 of EPCA (42 U.S.C. 6293).\n\nExternal power supply means an external power supply circuit that is used to convert household electric current into DC current or lower-voltage AC current to operate a consumer product. However, the term does not include any \u201ccommercial and industrial power supply\u201d as defined in this section, or a power supply circuit, driver, or device that is designed exclusively to be connected to, and power\u2014\n\n(1) Light-emitting diodes providing illumination;\n\n(2) Organic light-emitting diodes providing illumination; or\n\n(3) Ceiling fans using direct current motors.\n\nExternal power supply design family means a set of external power supply basic models, produced by the same manufacturer, which share the same circuit layout, output power, and output cord resistance, but differ in output voltage.\n\nFaucet means a lavatory faucet, kitchen faucet, metering faucet, or replacement aerator for a lavatory or kitchen faucet, excluding low-pressure water dispensers and pot fillers.\n\nFitting means a device that controls and guides the flow of water.\n\nFloor electric heater means an electric heater which is intended to be recessed in a floor, and which transfers heat by radiation and/or convection (either natural or forced).\n\nFluorescent lamp means a low pressure mercury electric-discharge source in which a fluorescing coating transforms some of the ultraviolet energy generated by the mercury discharge into light, including only the following:\n\n(1) Any straight-shaped lamp (commonly referred to as 4-foot medium bipin lamps) with medium bipin bases of nominal overall length of 48 inches and rated wattage of 25 or more;\n\n(2) Any U-shaped lamp (commonly referred to as 2-foot U-shaped lamps) with medium bipin bases of nominal overall length between 22 and 25 inches and rated wattage of 25 or more;\n\n(3) Any rapid start lamp (commonly referred to as 8-foot high output lamps) with recessed double contact bases of nominal overall length of 96 inches;\n\n(4) Any instant start lamp (commonly referred to as 8-foot slimline lamps) with single pin bases of nominal overall length of 96 inches and rated wattage of 49 or more;\n\n(5) Any straight-shaped lamp (commonly referred to as 4-foot miniature bipin standard output lamps) with miniature bipin bases of nominal overall length between 45 and 48 inches and rated wattage of 25 or more; and\n\n(6) Any straight-shaped lamp (commonly referred to 4-foot miniature bipin high output lamps) with miniature bipin bases of nominal overall length between 45 and 48 inches and rated wattage of 44 or more.\n\nFluorescent lamp ballast means a device which is used to start and operate fluorescent lamps by providing a starting voltage and current and limiting the current during normal operation.\n\nFluorescent lamp designed for use in reprographic equipment means a fluorescent lamp intended for use in equipment used to reproduce, reprint, or copy graphic material.\n\nFlushometer tank means a device whose function is defined in flushometer valve, but integrated within an accumulator vessel affixed and adjacent to the fixture inlet so as to cause an effective enlargement of the supply line immediately before the unit.\n\nFlushometer valve means a valve attached to a pressurized water supply pipe and so designed that when actuated, it opens the line for direct flow into the fixture at a rate and quantity to properly operate the fixture, and then gradually closes to provide trap reseal in the fixture in order to avoid water hammer. The pipe to which this device is connected is in itself of sufficient size, that when open, will allow the device to deliver water at a sufficient rate of flow for flushing purposes.\n\nForced air central furnace means a gas or oil burning furnace designed to supply heat through a system of ducts with air as the heating medium. The heat generated by combustion of gas or oil is transferred to the air within a casing by conduction through heat exchange surfaces and is circulated through the duct system by means of a fan or blower.\n\nFreestanding compact cooler means any cooler, excluding built-in compact coolers, with a total refrigerated volume less than 7.75 cubic feet.\n\nFreestanding cooler means any cooler, excluding built-in coolers, with a total refrigerated volume of 7.75 cubic feet or greater.\n\nFreezer means a cabinet, used with one or more doors, that has a source of refrigeration that requires single-phase, alternating current electric energy input only and is capable of maintaining compartment temperatures of 0 \u00b0F (\u221217.8 \u00b0C) or below as determined according to the provisions in \u00a7 429.14(d)(2) of this chapter. It does not include any refrigerated cabinet that consists solely of an automatic ice maker and an ice storage bin arranged so that operation of the automatic icemaker fills the bin to its capacity. However, the term does not include:\n\n(1) Any product that does not include a compressor and condenser unit as an integral part of the cabinet assembly; or\n\n(2) Any miscellaneous refrigeration product that must comply with an applicable miscellaneous refrigeration product energy conservation standard.\n\nFurnace means a product which utilizes only single-phase electric current, or single-phase electric current or DC current in conjunction with natural gas, propane, or home heating oil, and which\u2014\n\n(1) Is designed to be the principal heating source for the living space of a residence;\n\n(2) Is not contained within the same cabinet with a central air conditioner whose rated cooling capacity is above 65,000 Btu per hour;\n\n(3) Is an electric central furnace, electric boiler, forced-air central furnace, gravity central furnace, or low-pressure steam or hot water boiler; and\n\n(4) Has a heat input rate of less than 300,000 Btu per hour for electric boilers and low-pressure steam or hot water boilers and less than 225,000 Btu per hour for forced-air central furnaces, gravity central furnaces, and electric central furnaces.\n\nFurnace fan means an electrically-powered device used in a consumer product for the purpose of circulating air through ductwork.\n\nGas means either natural gas or propane.\n\nGas clothes dryer means a cabinet-like appliance designed to dry fabrics in a tumble-type drum with forced air circulation. The heat source is gas and the drum and blower(s) are driven by an electric motor(s).\n\nGas-fired circulating water heater means a circulating water heater with a nominal input of 75,000 Btu/h or less.\n\nGas-fired instantaneous water heater means a water heater that uses gas as the main energy source, has a nameplate input rating less than 200,000 Btu/h, and contains no more than one gallon of water per 4,000 Btu per hour of input.\n\nGas-fired pool heater means a pool heater that uses gas as its primary energy source.\n\nGas-fired storage water heater means a water heater that uses gas as the main energy source, has a nameplate input rating of 75,000 Btu/h or less, and contains more than one gallon of water per 4,000 Btu per hour of input.\n\nGeneral lighting application means lighting that provides an interior or exterior area with overall illumination.\n\nGeneral service fluorescent lamp means any fluorescent lamp which can be used to satisfy the majority of fluorescent lighting applications, but does not include any lamp designed and marketed for the following nongeneral application:\n\n(1) Fluorescent lamps designed to promote plant growth;\n\n(2) Fluorescent lamps specifically designed for cold temperature applications;\n\n(3) Colored fluorescent lamps;\n\n(4) Impact-resistant fluorescent lamps;\n\n(5) Reflectorized or aperture lamps;\n\n(6) Fluorescent lamps designed for use in reprographic equipment;\n\n(7) Lamps primarily designed to produce radiation in the ultra-violet region of the spectrum; and\n\n(8) Lamps with a Color Rendering Index of 87 or greater.\n\nGeneral service incandescent lamp means a standard incandescent or halogen type lamp that is intended for general service applications; has a medium screw base; has a lumen range of not less than 310 lumens and not more than 2,600 lumens or, in the case of a modified spectrum lamp, not less than 232 lumens and not more than 1,950 lumens; and is capable of being operated at a voltage range at least partially within 110 and 130 volts; however, this definition does not apply to the following incandescent lamps\u2014\n\n(1) An appliance lamp;\n\n(2) A black light lamp;\n\n(3) A bug lamp;\n\n(4) A colored lamp;\n\n(5) A G shape lamp with a diameter of 5 inches or more as defined in ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3);\n\n(6) An infrared lamp;\n\n(7) A left-hand thread lamp;\n\n(8) A marine lamp;\n\n(9) A marine signal service lamp;\n\n(10) A mine service lamp;\n\n(11) A plant light lamp;\n\n(12) An R20 short lamp;\n\n(13) A sign service lamp;\n\n(14) A silver bowl lamp;\n\n(15) A showcase lamp; and\n\n(16) A traffic signal lamp.\n\nGeneral service lamp means a lamp that has an ANSI base; is able to operate at a voltage of 12 volts or 24 volts, at or between 100 to 130 volts, at or between 220 to 240 volts, or of 277 volts for integrated lamps (as set out in this definition), or is able to operate at any voltage for non-integrated lamps (as set out in this definition); has an initial lumen output of greater than or equal to 310 lumens (or 232 lumens for modified spectrum general service incandescent lamps) and less than or equal to 3,300 lumens; is not a light fixture; is not an LED downlight retrofit kit; and is used in general lighting applications. General service lamps include, but are not limited to, general service incandescent lamps, compact fluorescent lamps, general service light-emitting diode lamps, and general service organic light emitting diode lamps. General service lamps do not include:\n\n(1) Appliance lamps;\n\n(2) Black light lamps;\n\n(3) Bug lamps;\n\n(4) Colored lamps;\n\n(5) G shape lamps with a diameter of 5 inches or more as defined in ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3);\n\n(6) General service fluorescent lamps;\n\n(7) High intensity discharge lamps;\n\n(8) Infrared lamps;\n\n(9) J, JC, JCD, JCS, JCV, JCX, JD, JS, and JT shape lamps that do not have Edison screw bases;\n\n(10) Lamps that have a wedge base or prefocus base;\n\n(11) Left-hand thread lamps;\n\n(12) Marine lamps;\n\n(13) Marine signal service lamps;\n\n(14) Mine service lamps;\n\n(15) MR shape lamps that have a first number symbol equal to 16 (diameter equal to 2 inches) as defined in ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3), operate at 12 volts, and have a lumen output greater than or equal to 800;\n\n(16) Other fluorescent lamps;\n\n(17) Plant light lamps;\n\n(18) R20 short lamps;\n\n(19) Reflector lamps (as set out in this definition) that have a first number symbol less than 16 (diameter less than 2 inches) as defined in ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3) and that do not have E26/E24, E26d, E26/50x39, E26/53x39, E29/28, E29/53x39, E39, E39d, EP39, or EX39 bases;\n\n(20) S shape or G shape lamps that have a first number symbol less than or equal to 12.5 (diameter less than or equal to 1.5625 inches) as defined in ANSI C78.79-2014 (R2020) (incorporated by reference; see \u00a7 430.3);\n\n(21) Sign service lamps;\n\n(22) Silver bowl lamps;\n\n(23) Showcase lamps;\n\n(24) Specialty MR lamps;\n\n(25) T shape lamps that have a first number symbol less than or equal to 8 (diameter less than or equal to 1 inch) as defined in ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3), nominal overall length less than 12 inches, and that are not compact fluorescent lamps (as set out in this definition);\n\n(26) Traffic signal lamps.\n\nGeneral service light-emitting diode (LED) lamp means an integrated or non-integrated LED lamp designed for use in general lighting applications (as defined in this section) and that uses light-emitting diodes as the primary source of light.\n\nGeneral service organic light-emitting diode (OLED) lamp means an integrated or non- integrated OLED lamp designed for use in general lighting applications (as defined in this section) and that uses organic light-emitting diodes as the primary source of light.\n\nGravity central furnace means a gas fueled furnace which depends primarily on natural convection for circulation of heated air and which is designed to be used in conjunction with a system of ducts.\n\nGravity flush tank water closet means a water closet designed to flush the bowl with water supplied by gravity only.\n\nGrid-enabled water heater means an electric resistance water heater that\u2014\n\n(1) Has a rated storage tank volume of more than 75 gallons;\n\n(2) Is manufactured on or after April 16, 2015;\n\n(3) Is equipped at the point of manufacture with an activation lock and;\n\n(4) Bears a permanent label applied by the manufacturer that\u2014\n\n(i) Is made of material not adversely affected by water;\n\n(ii) Is attached by means of non-water-soluble adhesive; and\n\n(iii) Advises purchasers and end-users of the intended and appropriate use of the product with the following notice printed in 16.5 point Arial Narrow Bold font: \u201cIMPORTANT INFORMATION: This water heater is intended only for use as part of an electric thermal storage or demand response program. It will not provide adequate hot water unless enrolled in such a program and activated by your utility company or another program operator. Confirm the availability of a program in your local area before purchasing or installing this product.\u201d\n\nHand-held showerhead means a showerhead that can be held or fixed in place for the purpose of spraying water onto a bather and that is connected to a flexible hose.\n\nHigh-definition multimedia interface or HDMI\u00ae means an audio and video interface as defined by HDMI\u00ae Specification Informational Version 1.0 or greater (incorporated by reference; see \u00a7 430.3).\n\nHome heating equipment, not including furnaces means vented home heating equipment and unvented home heating equipment.\n\nHousehold means an entity consisting of either an individual, a family, or a group of unrelated individuals, who reside in a particular housing unit. For the purpose of this definition:\n\n(1) Group quarters means living quarters that are occupied by an institutional group of 10 or more unrelated persons, such as a nursing home, military barracks, halfway house, college dormitory, fraternity or sorority house, convent, shelter, jail or correctional institution.\n\n(2) Housing unit means a house, an apartment, a group of rooms, or a single room occupied as separate living quarters, but does not include group quarters.\n\n(3) Separate living quarters means living quarters:\n\n(i) To which the occupants have access either:\n\n(A) Directly from outside of the building, or\n\n(B) Through a common hall that is accessible to other living quarters and that does not go through someone else's living quarters, and\n\n(ii) Occupied by one or more persons who live and eat separately from occupant(s) of other living quarters, if any, in the same building.\n\nImmersed heating element means an electrically powered heating device which is designed to operate while totally immersed in water in such a manner that the heat generated by the device is imparted directly to the water.\n\nImpact-resistant fluorescent lamp means a lamp that:\n\n(1) Has a coating or equivalent technology that is compliant with NSF/ANSI 51 (incorporated by reference; see \u00a7 430.3) and is designed to contain the glass if the glass envelope of the lamp is broken; and\n\n(2) Is designated and marketed for the intended application, with:\n\n(i) The designation on the lamp packaging; and\n\n(ii) Marketing materials that identify the lamp as being impact-resistant, shatter-resistant, shatter-proof, or shatter-protected.\n\nImport means to import into the customs territory of the United States.\n\nIncandescent lamp means a lamp in which light is produced by a filament heated to incandescence by an electric current, including only the following:\n\n(1) Any lamp (commonly referred to as lower wattage non-reflector general service lamps, including any tungsten halogen lamp) that has a rated wattage between 30 and 199, has an E26 medium screw base, has a rated voltage or voltage range that lies at least partially in the range of 115 and 130 volts, and is not a reflector lamp.\n\n(2) Any incandescent reflector lamp.\n\n(3) Any general service incandescent lamp (commonly referred to as a high-or higher-wattage lamp) that has a rated wattage above 199 (above 205 for a high wattage reflector lamp).\n\nIncandescent reflector lamp (commonly referred to as a reflector lamp) means any lamp in which light is produced by a filament heated to incandescence by an electric current, which: contains an inner reflective coating on the outer bulb to direct the light; is not colored; is not designed for rough or vibration service applications; is not an R20 short lamp; has an R, PAR, ER, BR, BPAR, or similar bulb shapes with an E26 medium screw base; has a rated voltage or voltage range that lies at least partially in the range of 115 and 130 volts; has a diameter that exceeds 2.25 inches; and has a rated wattage that is 40 watts or higher.\n\nIndirect operation external power supply means an external power supply that cannot operate a consumer product that is not a battery charger without the assistance of a battery as determined by the steps in paragraphs (1)(i) through (v) of this definition:\n\n(1) If the external power supply (EPS) can be connected to an end-use consumer product and that consumer product can be operated using battery power, the method for determining whether that EPS is incapable of operating that consumer product directly is as follows:\n\n(i) If the end-use product has a removable battery, remove it for the remainder of the test and proceed to the step in paragraph (1)(v) of this definition. If not, proceed to the step in paragraph (1)(ii).\n\n(ii) Charge the battery in the application via the EPS such that the application can operate as intended before taking any additional steps.\n\n(iii) Disconnect the EPS from the application. From an off mode state, turn on the application and record the time necessary for it to become operational to the nearest five second increment (5 sec, 10 sec, etc.).\n\n(iv) Operate the application using power only from the battery until the application stops functioning due to the battery discharging.\n\n(v) Connect the EPS first to mains and then to the application. Immediately attempt to operate the application. If the battery was removed for testing and the end-use product operates as intended, the EPS is not an indirect operation EPS and paragraph 2 of this definition does not apply. If the battery could not be removed for testing, record the time for the application to become operational to the nearest five second increment (5 seconds, 10 seconds, etc.).\n\n(2) If the time recorded in paragraph (1)(v) of this definition is greater than the summation of the time recorded in paragraph (1)(iii) of this definition and five seconds, the EPS cannot operate the application directly and is an indirect operation EPS.\n\nInfrared lamp means a lamp that is designed and marketed as an infrared lamp; has its highest radiant power peaks in the infrared region of the electromagnetic spectrum (770 nm to 1 mm); has a rated wattage of 125 watts or greater; and which has a primary purpose of providing heat.\n\nInstallation of a central air conditioner means the connection of the refrigerant lines and/or electrical systems to make the central air conditioner operational.\n\nIntegrated lamp means a lamp that contains all components necessary for the starting and stable operation of the lamp, does not include any replaceable or interchangeable parts, and is connected directly to a branch circuit through an ANSI base and corresponding ANSI standard lamp-holder (socket).\n\nIntegrated light-emitting diode lamp means an integrated LED lamp as defined in ANSI/IES RP-16 (incorporated by reference; see \u00a7 430.3).\n\nIntermediate base incandescent lamp means a lamp that uses an intermediate screw base as described in ANSI C81.61, Specifications for Electric Bases, common designation E17 (incorporated by reference; see \u00a7 430.3).\n\nKerosene means No. 1 fuel oil with a viscosity meeting the specifications as specified in UL-730-1974, section 36.9 and in tables 2 and 3 of ANSI Standard Z91.1-1972.\n\nLamp Efficacy (LE) means the measured lumen output of a lamp in lumens divided by the measured lamp electrical power input in watts expressed in units of lumens per watt (LPW).\n\nLamps primarily designed to produce radiation in the ultraviolet region of the spectrum means fluorescent lamps that primarily emit light in the portion of the electromagnetic spectrum where light has a wavelength between 10 and 400 nanometers.\n\nLED downlight retrofit kit means a product designed and marketed to install into an existing downlight, replacing the existing light source and related electrical components, typically employing an ANSI standard lamp base, either integrated or connected to the downlight retrofit by wire leads, and is a retrofit kit classified or certified to UL 1598C-2016 (incorporated by reference; see \u00a7 430.3). LED downlight retrofit kit does not include integrated lamps or non-integrated lamps.\n\nLeft-hand thread lamp means a lamp with direction of threads on the lamp base oriented in the left-hand direction.\n\nLifetime with respect to an incandescent reflector lamp or general service incandescent lamp means the length of operating time between first use and failure of 50 percent of the sample units (as specified in 10 CFR 429.55 and 429.66), determined in accordance with the test procedures described in appendix R to subpart B of this part.\n\nLifetime of a compact fluorescent lamp means the length of operating time between first use and failure of 50 percent of the sample units (as specified in \u00a7 429.35(a)(1) of this chapter), determined in accordance with the test procedures described in section 3.3 of appendix W to subpart B of this part.\n\nLifetime of an integrated light-emitting diode lamp means the length of operating time between first use and failure of 50 percent of the sample units (as required by \u00a7 429.56(a)(1) of this chapter), when measured in accordance with the test procedures described in section 4 of appendix BB to subpart B of this part.\n\nLight-emitting diode or LED means a p-n junction solid state device of which the radiated output, either in the infrared region, the visible region, or the ultraviolet region, is a function of the physical construction, material used, and exciting current of the device.\n\nLight fixture means a complete lighting unit consisting of light source(s) and ballast(s) or driver(s) (when applicable) together with the parts designed to distribute the light, to position and protect the light source, and to connect the light source(s) to the power supply.\n\nLow consumption has the meaning given such a term in ASME A112.19.2-2008. ( see \u00a7 430.3)\n\nLow pressure steam or hot water boiler means an electric, gas or oil burning furnace designed to supply low pressure steam or hot water for space heating application. A low pressure steam boiler operates at or below 15 pounds psig steam pressure; a hot water boiler operates at or below 160 psig water pressure and 250 \u00b0F. water temperature.\n\nLow-pressure water dispenser means a terminal fitting that dispenses drinking water at a pressure of 105 kPA (15 psi) or less.\n\nLow-temperature water heater means an electric instantaneous water heater that is not a circulating water heater and cannot deliver water at a temperature greater than or equal to the set point temperature specified in section 2.5 of appendix E to subpart B of this part when supplied with water at the supply water temperature specified in section 2.3 of appendix E to subpart B of this part and the flow rate specified in section 5.2.2.1 of appendix E to subpart B of this part.\n\nLow-voltage external power supply means an external power supply with a nameplate output voltage less than 6 volts and nameplate output current greater than or equal to 550 milliamps.\n\nLP-gas means liquified petroleum gas, and includes propane, butane, and propane/butane mixtures.\n\nMajor cooking component means either a conventional cooking top, a conventional oven or a microwave oven.\n\nManufacture means to manufacture, produce, assemble, or import.\n\nManufacturer means any person who manufactures a consumer product.\n\nMarine lamp means a lamp that is designed and marketed for use on boats and can operate at or between 12 volts and 13.5 volts.\n\nMarine signal service lamp means a lamp that is designed and marketed for marine signal service applications.\n\nMedium base compact fluorescent lamp means an integrally ballasted fluorescent lamp with a medium screw base, a rated input voltage range of 115 to 130 volts and which is designed as a direct replacement for a general service incandescent lamp; however, the term does not include\u2014\n\n(1) Any lamp that is\u2014\n\n(i) Specifically designed to be used for special purpose applications; and\n\n(ii) Unlikely to be used in general purpose applications, such as the applications described in the definition of \u201cGeneral Service Incandescent Lamp\u201d in this section; or\n\n(2) Any lamp not described in the definition of \u201cGeneral Service Incandescent Lamp\u201d in this section that is excluded by the Secretary, by rule, because the lamp is\u2014\n\n(i) Designed for special applications; and\n\n(ii) Unlikely to be used in general purpose applications.\n\nMedium screw base means an Edison screw base identified with the prefix E-26 in the \u201cAmerican National Standard for Electric Lamp Bases\u201d, ANSI__IEC C81.61-2003, published by the American National Standards Institute.\n\nMicrowave oven means a category of cooking products which is a household cooking appliance consisting of a compartment designed to cook or heat food by means of microwave energy, including microwave ovens with or without thermal elements designed for surface browning of food and convection microwave ovens. This includes any microwave oven(s) component of a combined cooking product.\n\nMine service lamp means a lamp that is designed and marketed for mine service applications.\n\nMiscellaneous refrigeration product means a consumer refrigeration product other than a refrigerator, refrigerator-freezer, or freezer, which includes coolers and combination cooler refrigeration products.\n\nMobile home furnace means a direct vent furnace that is designed for use only in mobile homes.\n\nModified spectrum means, with respect to an incandescent lamp, an incandescent lamp that\u2014\n\n(1) Is not a colored incandescent lamp; and\n\n(2) When operated at the rated voltage and wattage of the incandescent lamp\u2014\n\n(A) Has a color point with (x,y) chromaticity coordinates on the C.I.E. 1931 chromaticity diagram, figure 2, page 3 of IESNA LM-16 (incorporated by reference; see \u00a7 430.3) that lies below the black-body locus; and\n\n(B) Has a color point with (x,y) chromaticity coordinates on the C.I.E. 1931 chromaticity diagram, figure 2, page 3 of IESNA LM-16 (incorporated by reference; see \u00a7 430.3) that lies at least 4 MacAdam steps, as referenced in IESNA LM-16, distant from the color point of a clear lamp with the same filament and bulb shape, operated at the same rated voltage and wattage.\n\nNatural gas means natural gas as defined by the Federal Power Commission.\n\nNon-integrated lamp means a lamp that is not an integrated lamp.\n\nOff mode means the condition in which an energy using product\u2014\n\n(1) Is connected to a main power source; and\n\n(2) Is not providing any stand-by or active mode function.\n\nOil means heating oil grade No. 2 as defined in American Society for Testing and Materials (ASTM) D396-71.\n\nOil-fired circulating water heater means a circulating water heater with a nominal input of 105,000 Btu/h or less.\n\nOil-fired instantaneous water heater means a water heater that uses oil as the main energy source, has a nameplate input rating of 210,000 Btu/h or less, and contains no more than one gallon of water per 4,000 Btu per hour of input.\n\nOil-fired pool heater means a pool heater that uses oil as its primary energy source.\n\nOil-fired storage water heater means a water heater that uses oil as the main energy source, has a nameplate input rating of 105,000 Btu/h or less, and contains more than one gallon of water per 4,000 Btu per hour of input.\n\nOrganic light-emitting diode or O LED means a thin-film light-emitting device that typically consists of a series of organic layers between 2 electrical contacts (electrodes).\n\nOther clothes washer means a class of clothes washer which is not an automatic or semi-automatic clothes washer.\n\nOther cooking products means any category of cooking products other than conventional cooking tops, conventional ovens, and microwave ovens.\n\nOther fluorescent lamp means low pressure mercury electric-discharge sources in which a fluorescing coating transforms some of the ultraviolet energy generated by the mercury discharge into light and include circline lamps and include double-ended lamps with the following characteristics: Lengths from one to eight feet; designed for cold temperature applications; designed for use in reprographic equipment; designed to produce radiation in the ultraviolet region of the spectrum; impact-resistant; reflectorized or aperture; or a CRI of 87 or greater.\n\nPackaged terminal air conditioner means a wall sleeve and a separate unencased combination of heating and cooling assemblies specified by the builder and intended for mounting through the wall. It includes a prime source of refrigeration, separable outdoor louvers, forced ventilation, and heating availability energy.\n\nPackaged terminal heat pump means a packaged terminal air conditioner that utilizes reverse cycle refrigeration as its prime heat source and should have supplementary heating availability by builder's choice of energy.\n\nPAR incandescent reflector lamp means a reflector lamp formed by the sealing together during the lamp-making process of a pressed glass parabolic section and a pressed lens section as shown in Figure 1 (PAR) of ANSI C78.79-2020, (incorporated by reference; see \u00a7 430.3). The pressed lens section may be either plain or configured.\n\nPerson includes any individual, corporation, company, association, firm, partnership, society, trust, joint venture or joint stock company, the government, and any agency of the United States or any State or political subdivision thereof.\n\nPin base lamp means a lamp that uses a base type designated as a single pin base or multiple pin base system.\n\nPin-based means (1) the base of a fluorescent lamp, that is not integrally ballasted and that has a plug-in lamp base, including multi-tube, multibend, spiral, and circline types, or (2) a socket that holds such a lamp.\n\nPlant light lamp means a lamp that is designed to promote plant growth by emitting its highest radiant power peaks in the regions of the electromagnetic spectrum that promote photosynthesis: Blue (440 nm to 490 nm) and/or red (620 to 740 nm), and is designed and marketed for plant growing applications.\n\nPool heater means an appliance designed for heating nonpotable water contained at atmospheric pressure, including heating water in swimming pools, spas, hot tubs and similar applications.\n\nPortable air conditioner means a portable encased assembly, other than a \u201cpackaged terminal air conditioner,\u201d \u201croom air conditioner,\u201d or \u201cdehumidifier,\u201d that delivers cooled, conditioned air to an enclosed space, and is powered by single-phase electric current. It includes a source of refrigeration and may include additional means for air circulation and heating.\n\nPortable dehumidifier means a dehumidifier that, in accordance with any manufacturer instructions available to a consumer, operates within the dehumidified space without the attachment of additional ducting, although means may be provided for optional duct attachment.\n\nPortable electric heater means an electric heater which is intended to stand unsupported, and can be moved from place to place within a structure. It is connected to electric supply by means of a cord and plug, and transfers heat by radiation and/or convention (either natural or forced).\n\nPortable electric spa means a factory-built electric spa or hot tub, supplied with equipment for heating and circulating water at the time of sale or sold separately for subsequent attachment.\n\nPortable indoor conventional cooking top means a conventional cooking top designed\u2014\n\n(1) For indoor use; and\n\n(2) To be moved from place to place.\n\nPot filler means a terminal fitting that can accommodate only a single supply water inlet, with an articulated arm or the equivalent that allows the product to reach to fill vessels when in use and allows the product to be retracted when not in use.\n\nPrimary electric heater means an electric heater that is the principal source of heat for a structure and includes baseboard electric heaters, ceiling electric heaters, floor electric heaters, and wall electric heaters.\n\nPrivate labeler means an owner of a brand or trademark on the label of a consumer product which bears a private label. A consumer product bears a private label if:\n\n(1) Such product (or its container) is labeled with the brand or trademark of a person other than a manufacturer of such product;\n\n(2) The person with whose brand or trademark such product (or container) is labeled has authorized or caused such product to be so labeled; and\n\n(3) The brand or trademark of a manufacturer of such product does not appear on such label.\n\nPropane means a hydrocarbon whose chemical composition is predominantly C 3 H 8 , whether recovered from natural gas or crude oil.\n\nR incandescent reflector lamp means a reflector lamp that includes a parabolic or elliptical section below the major diameter as shown in Figure 1 (R) of ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3).\n\nR20 incandescent reflector lamp means an R incandescent reflector lamp that has a face diameter of approximately 2.5 inches, as shown in Figure C78.21-254 of ANSI C78.21-2016 (incorporated by reference; see \u00a7 430.3).\n\nR20 short lamp means a lamp that is an R20 incandescent reflector lamp that has a rated wattage of 100 watts; has a maximum overall length of 3 and 5/8, or 3.625, inches; and is designed, labeled, and marketed specifically for pool and spa applications.\n\nRated voltage with respect to incandescent lamps means:\n\n(1) The design voltage if the design voltage is 115 V, 130 V or between 115V and 130 V:\n\n(2) 115 V if the design voltage is less than 115 V and greater than or equal to 100 V and the lamp can operate at 115 V; and\n\n(3) 130 V if the design voltage is greater than 130 V and less than or equal to 150 V and the lamp can operate at 130 V.\n\nRated wattage means:\n\n(1) With respect to fluorescent lamps and general service fluorescent lamps:\n\n(i) If the lamp is listed in ANSI C78.81 (incorporated by reference; see \u00a7 430.3) or ANSI C78.901 (incorporated by reference; see \u00a7 430.3), the rated wattage of a lamp determined by the lamp designation of Clause 11.1 of ANSI C78.81 or ANSI C78.901;\n\n(ii) If the lamp is a residential straight-shaped lamp, and not listed in ANSI C78.81 (incorporated by reference; see \u00a7 430.3), the wattage of a lamp when operated on a reference ballast for which the lamp is designed; or\n\n(iii) If the lamp is neither listed in one of the ANSI standards referenced in paragraph (1)(i) of this definition, nor a residential straight-shaped lamp, a represented value of electrical power for a basic model, determined according to 10 CFR 429.27, and derived from the measured initial input power of a lamp tested according to appendix R to subpart B of this part.\n\n(2) With respect to general service incandescent lamps, a represented value of electrical power for a basic model, determined according to 10 CFR 429.66, and derived from the measured initial input power of a lamp tested according to appendix R to subpart B of this part.\n\n(3) With respect to incandescent reflector lamps, a represented value of electrical power for a basic model, determined according to 10 CFR 429.55, and derived from the measured initial input power of a lamp tested according to appendix R to subpart B of this part.\n\nReflector lamp means a lamp that has an R, PAR, BPAR, BR, ER, MR, or similar bulb shape as defined in ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3) and is used to provide directional light.\n\nReflectorized or aperture lamp means a fluorescent lamp that contains an inner reflective coating on the bulb to direct light.\n\nRefrigerant-desiccant dehumidifier means a whole-home dehumidifier that removes moisture from the process air by means of a desiccant material in addition to a refrigeration system.\n\nRefrigerator means a cabinet, used with one or more doors, that has a source of refrigeration that requires single-phase, alternating current electric energy input only and is capable of maintaining compartment temperatures above 32 \u00b0F (0 \u00b0C) and below 39 \u00b0F (3.9 \u00b0C) as determined according to \u00a7 429.14(d)(2) of this chapter. A refrigerator may include a compartment capable of maintaining compartment temperatures below 32 \u00b0F (0 \u00b0C), but does not provide a separate low temperature compartment capable of maintaining compartment temperatures below\n\n8 \u00b0F (\u221213.3 \u00b0C) as determined according to \u00a7 429.14(d)(2). However, the term does not include:\n\n(1) Any product that does not include a compressor and condenser unit as an integral part of the cabinet assembly;\n\n(2) A cooler; or\n\n(3) Any miscellaneous refrigeration product that must comply with an applicable miscellaneous refrigeration product energy conservation standard.\n\nRefrigerator-freezer means a cabinet, used with one or more doors, that has a source of refrigeration that requires single-phase, alternating current electric energy input only and consists of two or more compartments where at least one of the compartments is capable of maintaining compartment temperatures above 32 \u00b0F (0 \u00b0C) and below 39 \u00b0F (3.9 \u00b0C) as determined according to \u00a7 429.14(d)(2) of this chapter, and at least one other compartment is capable of maintaining compartment temperatures of 8 \u00b0F (\u221213.3 \u00b0C) and may be adjusted by the user to a temperature of 0 \u00b0F (\u221217.8 \u00b0C) or below as determined according to \u00a7 429.14(d)(2). However, the term does not include:\n\n(1) Any product that does not include a compressor and condenser unit as an integral part of the cabinet assembly; or\n\n(2) Any miscellaneous refrigeration product that must comply with an applicable miscellaneous refrigeration product energy conservation standard.\n\nReplacement ballast means a ballast that\u2014\n\n(1) Is designed for use to replace an existing fluorescent lamp ballast in a previously installed luminaire;\n\n(2) Is marked \u201cFOR REPLACEMENT USE ONLY\u201d;\n\n(3) Is shipped by the manufacturer in packages containing not more than 10 fluorescent lamp ballasts; and\n\n(4) Has output leads that when fully extended are a total length that is less than the length of the lamp with which the ballast is intended to be operated.\n\nResidential straight-shaped lamp means a low pressure mercury electric-discharge source in which a fluorescing coating transforms some of the ultraviolet energy generated by the mercury discharge into light, including a straight-shaped fluorescent lamp with medium bi-pin bases of nominal overall length of 48 inches and is either designed exclusively for residential applications; or designed primarily and marketed exclusively for residential applications.\n\n(1) A lamp is designed exclusively for residential applications if it will not function for more than 100 hours with a commercial high-power-factor ballast.\n\n(2) A lamp is designed primarily and marketed exclusively for residential applications if it:\n\n(i) Is permanently and clearly marked as being for residential use only;\n\n(ii) Has a life of 6,000 hours or less when used with a commercial high-power-factor ballast;\n\n(iii) Is not labeled or represented as a replacement for a fluorescent lamp that is a covered product; and\n\n(iv) Is marketed and distributed in a manner designed to minimize use of the lamp with commercial high-power-factor ballasts.\n\n(3) A manufacturer may market and distribute a lamp in a manner designed to minimize use of the lamp with commercial high-power-factor ballasts by:\n\n(i) Packaging and labeling the lamp in a manner that clearly indicates the lamp is for residential use only and includes appropriate instructions concerning proper and improper use; if the lamp is included in a catalog or price list that also includes commercial/industrial lamps, listing the lamp in a separate residential section accompanied by notes about proper use on the same page; and providing as part of any express warranty accompanying the lamp that improper use voids such warranty; or\n\n(ii) Using other comparably effective measures to minimize use with commercial high-power-factor ballasts.\n\nRoom air conditioner means a window-mounted or through-the-wall-mounted encased assembly, other than a \u201cpackaged terminal air conditioner,\u201d that delivers cooled, conditioned air to an enclosed space, and is powered by single-phase electric current. It includes a source of refrigeration and may include additional means for ventilating and heating.\n\nRough or vibration service incandescent reflector lamp means a reflector lamp: in which a C-11 (5 support), C-17 (8 support), or C-22 (16 support) filament is mounted (the number of support excludes lead wires); in which the filament configuration is as shown in Chapter 6 of the 1993 Illuminating Engineering Society of North America Lighting Handbook, 8th Edition (see 10 CFR 430.22); and that is designated and marketed specifically for rough or vibration service applications.\n\nRough service lamp means a lamp that\u2014\n\n(1) Has a minimum of 5 supports with filament configurations that are C-7A, C-11, C-17, and C-22 as listed in Figure 6-12 of the IESNA Lighting Handbook (incorporated by reference; see \u00a7 430.3), or similar configurations where lead wires are not counted as supports; and\n\n(2) Is designated and marketed specifically for \u2018rough service\u2019 applications, with\n\n(i) The designation appearing on the lamp packaging; and\n\n(ii) Marketing materials that identify the lamp as being for rough service.\n\nS-video means a video display interface that transmits analog video over two channels: luma and chroma as defined by IEC 60933-5 Ed. 1.0 (incorporated by reference; see \u00a7 430.3).\n\nSafety shower showerhead means a showerhead designed to meet the requirements of ISEA Z358.1 (incorporated by reference, see \u00a7 430.3).\n\nSecretary means the Secretary of the Department of Energy.\n\nSecurity or life safety alarm or surveillance system means:\n\n(1) Equipment designed and marketed to perform any of the following functions (on a continuous basis):\n\n(i) Monitor, detect, record, or provide notification of intrusion or access to real property or physical assets or notification of threats to life safety.\n\n(ii) Deter or control access to real property or physical assets, or prevent the unauthorized removal of physical assets.\n\n(iii) Monitor, detect, record, or provide notification of fire, gas, smoke, flooding, or other physical threats to real property, physical assets, or life safety.\n\n(2) This term does not include any product with a principal function other than life safety, security, or surveillance that:\n\n(i) Is designed and marketed with a built-in alarm or theft-deterrent feature; or\n\n(ii) Does not operate necessarily and continuously in active mode.\n\nSemi-automatic clothes washer means a class of clothes washer that is the same as an automatic clothes washer except that user intervention is required to regulate the water temperature by adjusting the external water faucet valves.\n\nShatter-resistant lamp, shatter-proof lamp, or shatter-protected lamp means a lamp that\u2014\n\n(1) Has a coating or equivalent technology that is compliant with NSF/ANSI 51 (incorporated by reference; see \u00a7 430.3) and is designed to contain the glass if the glass envelope of the lamp is broken; and\n\n(2) Is designated and marketed for the intended application, with\n\n(i) The designation on the lamp packaging; and\n\n(ii) Marketing materials that identify the lamp as being shatter-resistant, shatter-proof, or shatter-protected.\n\nShowcase lamp means a lamp that has a T shape as specified in ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3), is designed and marketed as a showcase lamp, and has a maximum rated wattage of 75 watts.\n\nSign service lamp means a vacuum type or gas-filled lamp that has sufficiently low bulb temperature to permit exposed outdoor use on high-speed flashing circuits, is designed and marketed as a sign service lamp, and has a maximum rated wattage of 15 watts.\n\nSilver bowl lamp means a lamp that has an opaque reflective coating applied directly to part of the bulb surface that reflects light toward the lamp base and that is designed and marketed as a silver bowl lamp.\n\nSingle-duct portable air conditioner means a portable air conditioner that draws all of the condenser inlet air from the conditioned space without the means of a duct, and discharges the condenser outlet air outside the conditioned space through a single duct attached to an adjustable window bracket.\n\nSiphonic action means the movement of water through a flushing fixture by creating a siphon to remove waste material.\n\nSiphonic bowl means a water closet bowl that has an integral flushing rim, a trap at the front or rear, and a floor or wall outlet, and operates with a siphonic action (with or without a jet).\n\nSmall-duct high-velocity (SDHV) electric furnace means an electric furnace that:\n\n(1) Is designed for, and produces, at least 1.2 inches of external static pressure when operated at the certified air volume rate of 220-350 CFM per rated ton of cooling in the highest default cooling airflow-control setting; and\n\n(2) When applied in the field, uses high velocity room outlets generally greater than 1,000 fpm that have less than 6.0 square inches of free area.\n\nSmall-duct high-velocity (SDHV) modular blower means a modular blower that:\n\n(1) Is designed for, and produces, at least 1.2 inches of external static pressure when operated at the certified air volume rate of 220-350 CFM per rated ton of cooling in the highest default cooling airflow-controls setting; and\n\n(2) When applied in the field, uses high velocity room outlets generally greater than 1,000 fpm that have less than 6.0 square inches of free area.\n\nSpace constrained product means a central air conditioner or heat pump:\n\n(1) That has rated cooling capacities no greater than 30,000 BTU/hr;\n\n(2) That has an outdoor or indoor unit having at least two overall exterior dimensions or an overall displacement that:\n\n(i) Is substantially smaller than those of other units that are:\n\n(A) Currently usually installed in site-built single family homes; and\n\n(B) Of a similar cooling, and, if a heat pump, heating capacity; and\n\n(ii) If increased, would certainly result in a considerable increase in the usual cost of installation or would certainly result in a significant loss in the utility of the product to the consumer; and\n\n(3) Of a product type that was available for purchase in the United States as of December 1, 2000.\n\nSpecialty application mercury vapor lamp ballast means a mercury vapor lamp ballast that\u2014\n\n(1) Is designed and marketed for operation of mercury vapor lamps used in quality inspection, industrial processing, or scientific use, including fluorescent microscopy and ultraviolet curing; and\n\n(2) In the case of a specialty application mercury vapor lamp ballast, the label of which\u2014\n\n(i) Provides that the specialty application mercury vapor lamp ballast is \u2018For specialty applications only, not for general illumination\u2019; and\n\n(ii) Specifies the specific applications for which the ballast is designed.\n\nSpecialty MR lamp means a lamp that has an MR shape as defined in ANSI C78.79-2020 (incorporated by reference; see \u00a7 430.3), a diameter of less than or equal to 2.25 inches, a lifetime of less than or equal to 300 hours, and that is designed and marketed for a specialty application.\n\nStandby mode means the condition in which an energy-using product\u2014\n\n(1) Is connected to a main power source; and\n\n(2) Offers one or more of the following user-oriented or protective functions:\n\n(i) To facilitate the activation or deactivation of other functions (including active mode) by remote switch (including remote control), internal sensor, or timer; or\n\n(ii) Continuous functions, including information or status displays (including clocks) or sensor-based functions.\n\nState means a State, the District of Columbia, Puerto Rico, or any territory or possession of the United States.\n\nState regulation means a law or regulation of a State or political subdivision thereof.\n\nSupplementary electric heater means an electric heater that provides heat to a space in addition to that which is supplied by a primary electric heater and includes portable electric heaters.\n\nSurface unit means either a heating unit mounted in a cooking top, or a heating source and its associated heated area of the cooking top, on which vessels are placed for the cooking or heating of food.\n\nTabletop water heater means a water heater in a rectangular box enclosure designed to slide into a kitchen countertop space with typical dimensions of 36 inches high, 25 inches deep, and 24 inches wide, and with a certified first-hour rating that results in either the very small draw pattern or the low draw pattern, as specified in Table I in section 5.4.1 of appendix E to subpart B of this part.\n\nTelevision set or TV means a product designed to produce dynamic video, contains an internal TV tuner encased within the product housing, and that is capable of receiving dynamic visual content from wired or wireless sources including but not limited to:\n\n(1) Broadcast and similar services for terrestrial, cable, satellite, and/or broadband transmission of analog and/or digital signals; and/or\n\n(2) Display-specific data connections, such as HDMI, Component video, S-video, Composite video; and/or\n\n(3) Media storage devices such as a USB flash drive, memory card, or a DVD; and/or\n\n(4) Network connections, usually using Internet Protocol, typically carried over Ethernet or Wi-Fi.\n\nThrough-the-wall central air conditioner means a central air conditioner that is designed to be installed totally or partially within a fixed-size opening in an exterior wall, and:\n\n(1) Is not weatherized;\n\n(2) Is clearly and permanently marked for installation only through an exterior wall;\n\n(3) Has a rated cooling capacity no greater than 30,000 Btu/hr;\n\n(4) Exchanges all of its outdoor air across a single surface of the equipment cabinet; and\n\n(5) Has a combined outdoor air exchange area of less than 800 square inches (split systems) or less than 1,210 square inches (single packaged systems) as measured on the surface described in paragraph (4) of this definition.\n\nThrough-the-wall central air conditioning heat pump means a heat pump that is designed to be installed totally or partially within a fixed-size opening in an exterior wall, and:\n\n(1) Is not weatherized;\n\n(2) Is clearly and permanently marked for installation only through an exterior wall;\n\n(3) Has a rated cooling capacity no greater than 30,000 Btu/hr;\n\n(4) Exchanges all of its outdoor air across a single surface of the equipment cabinet; and\n\n(5) Has a combined outdoor air exchange area of less than 800 square inches (split systems) or less than 1,210 square inches (single packaged systems) as measured on the surface described in paragraph (4) of this definition.\n\nTorchiere means a portable electric lamp with a reflector bowl that directs light upward to give indirect illumination.\n\nTraffic signal lamp means a lamp that is designed and marketed for traffic signal applications and has a lifetime of 8,000 hours or greater.\n\nTrough-type urinal means a urinal designed for simultaneous use by two or more people.\n\nUnvented gas heater means a class of unvented home heating equipment which is a self-contained, free-standing, nonrecessed gas-burning appliance that furnishes heated air by gravity or fan circulation.\n\nUnvented home heating equipment or unvented heater means a class of home heating equipment, not including furnaces, designed to furnish heated air to a space proximate to such heater, directly from the heater, without inlet duct connections and without exhaust venting, and includes: Electric heater, unvented gas heater, and unvented oil heater.\n\nUnvented oil heater means a class of unvented home heating equipment which is a self-contained, free-standing, nonrecessed oil-burning appliance that furnishes heated air by gravity or fan circulation.\n\nUrinal means a plumbing fixture which receives only liquid body waste and, on demand, conveys the waste through a trap seal into a gravity drainage system, except such term does not include fixtures designed for installations in prisons.\n\nVented floor furnace means a self-contained vented heater suspended from the floor of the space being heated, taking air for combustion from outside this space. The vented floor furnace supplies heated air circulated by gravity or by a fan directly into the space to be heated through openings in the casing.\n\nVented home heating equipment or vented heater means a class of home heating equipment, not including furnaces, designed to furnish heated air to a space proximate to such heater, directly from the heater, without inlet duct connections (except that boots not to exceed 10 inches beyond the casing may be permitted), and with exhaust venting, and includes: Vented wall furnace, vented floor furnace, and vented room heater.\n\nVented room heater means a self-contained, free standing, nonrecessed, vented heater for furnishing heated air to the space in which it is installed. The vented room heater supplies heated air circulated by gravity or by a fan directly into the space to be heated through openings in the casing.\n\nVented wall furnace means a self-contained vented heater complete with grilles or the equivalent, designed for incorporation in, or permanent attachment to, a wall of a residence and furnishing heated air circulated by gravity or by a fan directly into the space to be heated through openings in the casing.\n\nVibration service lamp means a lamp that\u2014\n\n(1) Has filament configurations that are C-5, C-7A, or C-9, as listed in Figure 6-12 of the IESNA Lighting Handbook (incorporated by reference; see \u00a7 430.3) or similar configurations;\n\n(2) Has a maximum wattage of 60 watts;\n\n(3) Is sold at retail in packages of 2 lamps or less; and\n\n(4) Is designated and marketed specifically for vibration service or vibration-resistant applications, with\u2014\n\n(i) The designation appearing on the lamp packaging; and\n\n(ii) Marketing materials that identify the lamp as being vibration service only.\n\nVoltage range means a band of operating voltages as marked on an incandescent lamp, indicating that the lamp is designed to operate at any voltage within the band.\n\nWall electric heater means an electric heater (excluding baseboard electric heaters) which is intended to be recessed in or surface mounted on walls, which transfers heat by radiation and/or convection (either natural or forced) and which includes forced convectors, natural convectors, radiant heaters, high wall or valance heaters.\n\nWater closet means a plumbing fixture that has a water-containing receptor which receives liquid and solid body waste, and upon actuation, conveys the waste through an exposed integral trap seal into a gravity drainage system, except such term does not include fixtures designed for installation in prisons.\n\nWater heater means a product which utilizes oil, gas, or electricity to heat potable water for use outside the heater upon demand, including\u2014\n\n(1) Storage type units which heat and store water at a thermostatically controlled temperature, including gas storage water heaters with an input of 75,000 Btu per hour or less, oil storage water heaters with an input of 105,000 Btu per hour or less, and electric storage water heaters with an input of 12 kilowatts or less;\n\n(2) Instantaneous type units which heat water but contain no more than one gallon of water per 4,000 Btu per hour of input, including gas instantaneous water heaters with an input of 200,000 Btu per hour or less, oil instantaneous water heaters with an input of 210,000 Btu per hour or less, and electric instantaneous water heaters with an input of 12 kilowatts or less; and\n\n(3) Heat pump type units, with a maximum current rating of 24 amperes at a voltage no greater than 250 volts, which are products designed to transfer thermal energy from one temperature level to a higher temperature level for the purpose of heating water, including all ancillary equipment such as fans, storage tanks, pumps, or controls necessary for the device to perform its function.\n\nWater use means the quantity of water flowing through a showerhead, faucet, water closet, or urinal at point of use, determined in accordance with test procedures under appendices S and T of subpart B of this part.\n\nWeatherized warm air furnace or boiler means a furnace or boiler designed for installation outdoors, approved for resistance to wind, rain, and snow, and supplied with its own venting system.\n\nWhole-home dehumidifier means a dehumidifier that, in accordance with any manufacturer instructions available to a consumer, operates with ducting to deliver return process air to its inlet and to supply dehumidified process air from its outlet to one or more locations in the dehumidified space."], ["10:10:3.0.1.4.18.1.11.3", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "A", "Subpart A\u2014General Provisions", "", "\u00a7 430.3 Materials incorporated by reference.", "DOE", "", "", "[74 FR 12066, Mar. 23, 2009]", "(a) Certain material is incorporated by reference into this part with the approval of the Director of the Federal Register under 5 U.S.C. 552(a) and 1 CFR part 51. To enforce any edition other than that specified in this section, the U.S. Department of Energy (DOE) must publish a document in the Federal Register and the material must be available to the public. All approved incorporation by reference (IBR) material is available for inspection at the Department of Energy (DOE) and at the National Archives and Records Administration (NARA). Contact DOE at: The U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, Building Technologies Office, EE-5B, 1000 Independence Avenue SW, Washington, DC 20585-0121, (202) 586-9127, Buildings@ee.doe.gov, www.energy.gov/eere/buildings/appliance-and-equipment-standards-program. For information on the availability of this material at NARA, visit www.archives.gov/federal-register/cfr/ibr-locations.html or email fr.inspection@nara.gov. The material may be obtained from the sources in the following paragraphs of this section.\n\n(b) Air Movement and Control Association International, Inc. (AMCA), 30 West University Drive, Arlington Heights, IL 60004, (847) 394-0150, or by going to https://www.amca.org/store/item.aspx?ItemId=81.\n\n(1) ANSI/AMCA 210-99, Laboratory Methods of Testing Fans for Aerodynamic Performance Rating, ANSI-approved December 2, 1999; IBR approved for appendices CC and CC1 to subpart B. (Co-published as ANSI/ASHRAE 51-1999.)\n\n(2) ANSI/ASHRAE 51-07/ANSI/AMCA 210-07 (\u201cANSI/AMCA 210\u201d), Laboratory Methods of Testing Fans for Certified Aerodynamic Performance Rating, AMCA approved July 28, 2006; IBR approved for appendix X1 to subpart B.\n\n(3) ANSI/AMCA Standard 208-18, (\u201cAMCA 208-18\u201d), Calculation of the Fan Energy Index, ANSI approved January 24, 2018, IBR approved for appendix U to this subpart.\n\n(4) ANSI/AMCA 210-07, ANSI/ASHRAE 51-07 (\u201cAMCA 210-2007\u201d), Laboratory Methods of Testing Fans for Certified Aerodynamic Performance Rating, ANSI approved August 17, 2007, Section 8\u2014Report and Results of Test, Section 8.2\u2014Performance graphical representation of test results, IBR approved for appendix M to subpart B, as follows:\n\n(i) Figure 2A\u2014Static Pressure Tap, and\n\n(ii) Figure 12\u2014Outlet Chamber Setup\u2014Multiple Nozzles in Chamber.\n\n(5) ANSI/AMCA Standard 230-15 (\u201cAMCA 230-15\u201d), Laboratory Methods of Testing Air Circulating Fans for Rating and Certification, ANSI-approved October 16, 2015; IBR approved for appendix U of subpart B.\n\n(6) AMCA 230-15 Technical Errata 2021-05-05 (\u201cAMCA 260-15 TE), Technical Errata Sheet for ANSI/AMCA Standard 230-15: Density Corrections, dated May 5, 2021; IBR approved for appendix U of subpart B.\n\n(c) AHRI. Air-Conditioning, Heating, and Refrigeration Institute, 2311 Wilson Blvd., Suite 400, Arlington, VA 22201, (703) 524-8800, or go to: www.ahrinet.org.\n\n(1) ANSI/AHRI 210/240-2008 with Addenda 1 and 2 (\u201cAHRI 210/240-2008\u201d), 2008 Standard for Performance Rating of Unitary Air-Conditioning & Air-Source Heat Pump Equipment, ANSI approved October 27, 2011 (Addendum 1 dated June 2011 and Addendum 2 dated March 2012); IBR approved for appendix M to subpart B, as follows:\n\n(i) Section 6\u2014Rating Requirements, Section 6.1\u2014Standard Ratings, 6.1.3\u2014Standard Rating Tests, 6.1.3.2\u2014Electrical Conditions;\n\n(ii) Section 6\u2014Rating Requirements, Section 6.1\u2014Standard Ratings, 6.1.3\u2014Standard Rating Tests, 6.1.3.4\u2014Outdoor-Coil Airflow Rate;\n\n(iii) Section 6\u2014Rating Requirements, Section 6.1\u2014Standard Ratings, 6.1.3\u2014Standard Rating Tests, 6.1.3.5\u2014Requirements for Separated Assemblies;\n\n(iv) Figure D1\u2014Tunnel Air Enthalpy Test Method Arrangement;\n\n(v) Figure D2\u2014Loop Air Enthalpy Test Method Arrangement; and\n\n(vi) Figure D4\u2014Room Air Enthalpy Test Method Arrangement.\n\n(2) AHRI Standard 210/240-2024 (I-P), (\u201cAHRI 210/240-2024\u201d), Performance Rating of Unitary Air-conditioning and Air-source Heat Pump Equipment; IBR approved for appendix M1 to subpart B.\n\n(3) AHRI Standard 1160-2009 (\u201cAHRI 1160\u201d), Performance Rating of Heat Pump Pool Heaters, 2009; IBR approved for appendix P to subpart B.\n\n(4) ANSI/AHRI 1230-2010 with Addendum 2 (\u201cAHRI 1230-2010\u201d), 2010 Standard for Performance Rating of Variable Refrigerant Flow (VRF) Multi-Split Air-Conditioning and Heat Pump Equipment (including Addendum 1 dated March 2011), ANSI approved August 2, 2010 (Addendum 2 dated June 2014); IBR approved for appendix M to subpart B, as follows:\n\n(i) Section 3\u2014Definitions (except 3.8, 3.9, 3.13, 3.14, 3.15, 3.16, 3.23, 3.24, 3.26, 3.27, 3.28, 3.29, 3.30, and 3.31);\n\n(ii) Section 5\u2014Test Requirements, Section 5.1 (untitled), 5.1.3-5.1.4;\n\n(iii) Section 6\u2014Rating Requirements, Section 6.1\u2014Standard Ratings, 6.1.5\u2014Airflow Requirements for Systems with Capacities <65,000 Btu/h [19,000 W];\n\n(iv) Section 6\u2014Rating Requirements, Section 6.1\u2014Standard Ratings, 6.1.6\u2014Outdoor-Coil Airflow Rate (Applies to all Air-to-Air Systems);\n\n(v) Section 6\u2014Rating Requirements, Section 6.2\u2014Conditions for Standard Rating Test for Air-cooled Systems <65,000 Btu/h [19,000W] (except table 8); and\n\n(vi) Table 4\u2014Refrigerant Line Length Correction Factors.\n\n(5) AHRI Standard 1600-2024 (I-P) (\u201cAHRI 1600-2024\u201d), Performance Rating of Unitary Air-conditioning and Air-source Heat Pump Equipment; IBR approved for appendix M2 to subpart B.\n\n(d) AATCC. American Association of Textile Chemists and Colorists, P.O. Box 12215, Research Triangle Park, NC 27709, (919) 549-3526, or go to www.aatcc.org.\n\n(1) AATCC Test Method 79-2010, Absorbency of Textiles, Revised 2010, IBR approved for Appendix J3 to Subpart B.\n\n(2) AATCC Test Method 118-2007, Oil Repellency: Hydrocarbon Resistance Test, Revised 2007, IBR approved for Appendix J3 to Subpart B.\n\n(3) AATCC Test Method 135-2010, Dimensional Changes of Fabrics after Home Laundering, Revised 2010, IBR approved for Appendix J3 to Subpart B.\n\n(e) ANSI. American National Standards Institute, 25 W. 43rd Street, 4th Floor, New York, NY 10036, 212-642-4900, or go to https://www.ansi.org.\n\n(1) ANSI C78.3-1991 (\u201cANSI C78.3\u201d), American National Standard for Fluorescent Lamps-Instant-start and Cold-Cathode Types-Dimensional and Electrical Characteristics, approved July 15, 1991; IBR approved for \u00a7 430.32.\n\n(2) ANSI C78.20-2003, Revision of ANSI C78.20-1995 (\u201cANSI C78.20\u201d), American National Standard for electric lamps\u2014A, G, PS, and Similar Shapes with E26 Medium Screw Bases, approved October 30, 2003; IBR approved for \u00a7 430.2.\n\n(3) ANSI C78.21-1989, American National Standard for Electric Lamps\u2014PAR and R Shapes, approved March 3, 1989, IBR approved for \u00a7 430.2.\n\n(4) ANSI C78.21-2011 (R2016) (\u201cANSI C78.21-2016\u201d), American National Standard for Electric Lamps\u2014PAR and R Shapes, ANSI-approved August 23, 2016; IBR approved for \u00a7 430.2.\n\n(5) ANSI C78.79-2014 (R2020) (\u201cANSI C78.79-2020\u201d), American National Standard for Electric Lamps\u2014Nomenclature for Envelope Shapes Intended for Use with Electric Lamps, ANSI-approved January 17, 2020; IBR approved for \u00a7 430.2.\n\n(6) ANSI__ANSLG C78.81-2010, (\u201cANSI C78.81-2010\u201d), American National Standard for Electric Lamps\u2014Double-Capped Fluorescent Lamps\u2014 Dimensional and Electrical Characteristics, approved January 14, 2010, IBR approved for \u00a7\u00a7 430.2 and 430.32 and appendix R to subpart B.\n\n(7) ANSI C78.81-2016, American National Standard for Electric Lamps\u2014Double-Capped Fluorescent Lamps\u2014Dimensional and Electrical Characteristics, approved June 29, 2016, IBR approved for appendices Q and R to subpart B.\n\n(8) ANSI C78.375-1997, Revision of ANSI C78.375-1991 (\u201cANSI C78.375\u201d), American National Standard for Fluorescent Lamps\u2014Guide for Electrical Measurements, first edition, approved September 25, 1997; IBR approved for appendix R to subpart B.\n\n(9) ANSI C78.375A-2014 (R2020) (\u201cANSI C78.375A-2020\u201d) American National Standard for Electric Lamps\u2014Fluorescent Lamps\u2014Guide for Electrical Measures, ANSI-approved January 17, 2020; IBR approved for appendix R to subpart B.\n\n(10) ANSI__IEC C78.901-2005, (\u201cANSI C78.901-2005\u201d), American National Standard for Electric Lamps\u2014Single-Based Fluorescent Lamps\u2014Dimensional and Electrical Characteristics, approved March 23, 2005; IBR approved for \u00a7 430.2 and appendix R to subpart B.\n\n(11) ANSI C78.901-2014, American National Standard for Electric Lamps\u2014Single-Based Fluorescent Lamps\u2014Dimensional and Electrical Characteristics, ANSI approved July 2, 2014; IBR approved for appendix W to subpart B.\n\n(12) ANSI/NEMA C78.901-2016 (\u201cANSI C78.901-2016\u201d), American National Standard for Electric Lamps\u2014Single-Based Fluorescent Lamps\u2014Dimensional and Electrical Characteristics, ANSI approved August 23, 2016, IBR approved for appendices Q and R to subpart B.\n\n(13) ANSI C79.1-1994, American National Standard for Nomenclature for Glass Bulbs\u2014Intended for Use with Electric Lamps, approved March 24, 1994, IBR approved for \u00a7 430.2.\n\n(14) ANSI C79.1-2002, American National Standard for Electric Lamps\u2014Nomenclature for Glass Bulbs Intended for Use with Electric Lamps, approved September 16, 2002, IBR approved for \u00a7 430.2.\n\n(15) ANSI__ANSLG__ C81.61-2006, Revision of ANSI C81.61-2005, (\u201cANSI C81.61\u201d), American National Standard for electrical lamp bases\u2014Specifications for Bases (Caps) for Electric Lamps, approved August 25, 2006, IBR approved for \u00a7\u00a7 430.2; 430.32.\n\n(16) ANSI C82.1-2004 (R2008, R2015), (\u201cANSI C82.1\u201d), American National Standard for Lamp Ballasts\u2014Line Frequency Fluorescent Lamp Ballasts, approved November 20, 2015; IBR approved for appendix Q to subpart B.\n\n(17) ANSI C82.2-2002 (R2007, R2016), (\u201cANSI C82.2\u201d), American National Standard for Lamp Ballasts\u2014Method of Measurement of Fluorescent Lamp Ballasts, approved July 12, 2016, IBR approved for appendix Q to subpart B.\n\n(18) ANSI C82.3-2016, (\u201cANSI C82.3\u201d), American National Standard for Reference Ballasts for Fluorescent Lamps, approved April 8, 2016; IBR approved for appendices Q and R to subpart B.\n\n(19) ANSI/NEMA C82.11-2017, (\u201cANSI C82.11\u201d), American National Standard for Lamp Ballasts\u2014High-Frequency Fluorescent Lamp Ballasts, approved January 23, 2017; IBR approved for appendix Q to subpart B.\n\n(20) ANSI C82.13-2002 (\u201cANSI C82.13\u201d), American National Standard for Lamp Ballasts\u2014Definitions for Fluorescent Lamps and Ballasts, approved July 23, 2002; IBR approved for appendix Q to subpart B.\n\n(21) ANSI C82.77-2002, (\u201cANSI C82.77\u201d) Harmonic Emission Limits\u2014Related Power Quality Requirements for Lighting Equipment, approved January 17, 2002; IBR approved for appendix Q to subpart B.\n\n(22) ANSI/NEMA WD 6-2016, Wiring Devices\u2014Dimensional Specifications, ANSI approved February 11, 2016, IBR approved for appendices Y and Y1 to subpart B; as follows:\n\n(i) Figure 1-15\u2014Plug and Receptacle; and\n\n(ii) Figure 5-15\u2014Plug and Receptacle.\n\n(23) ANSI Z21.56-2006, section 2.10 (\u201cANSI Z21.56\u201d), Standard for Gas-Fired Pool Heaters, approved December 13, 2005, IBR approved for appendix P to subpart B.\n\n(24) ANSI Z21.50-2007 (CSA 2.22-2007), (\u201cANSI Z21.50\u201d), Vented Gas Fireplaces, Fifth Edition, Approved February 22, 2007, IBR approved for \u00a7 430.2.\n\n(25) [Reserved]\n\n(26) ANSI Z21.88-2009 (CSA 2.33-2009), (\u201cANSI Z21.88\u201d), Vented Gas Fireplace Heaters, Fifth Edition, Approved March 26, 2009, IBR approved for \u00a7 430.2.\n\nThe standards referenced in paragraphs (e)(4), (5), (7), (9), (12), (16), (17), (18), (19), and (21) of this section were all published by National Electrical Manufacturers Association (NEMA) and are also available from National Electrical Manufacturers Association, 1300 North 17th Street, Suite 900, Rosslyn, Virginia 22209, https://www.nema.org/Standards/Pages/default.aspx.\n\n(f) AS/NZS. Australian/New Zealand Standard, GPO Box 476, Sydney NSW 2001, (02) 9237-6000 or (12) 0065-4646, or go to www.standards.org.au/ Standards New Zealand, Level 10 Radio New Zealand House 144 The Terrace Wellington 6001 (Private Bag 2439 Wellington 6020), (04) 498-5990 or (04) 498-5991, or go to www.standards.co.nz.\n\n(1) AS/NZS 4474.1:2007, Performance of Household Electrical Appliances\u2014Refrigerating Appliances; Part 1: Energy Consumption and Performance, Second edition, published August 15, 2007, IBR approved for Appendix A to Subpart B.\n\n(2) [Reserved]\n\n(g) ASHRAE. American Society of Heating, Refrigerating, and Air-Conditioning Engineers, Inc., 180 Technology Parkway NW, Peachtree Corners, GA 30092; (800) 527-4723 or (404) 636-8400; www.ashrae.org.\n\n(1) ANSI/ASHRAE Standard 16-2016 (\u201cANSI/ASHRAE 16\u201d), Method of Testing for Rating Room Air Conditioners, Packaged Terminal Air Conditioners, and Packaged Terminal Heat Pumps for Cooling and Heating Capacity, ANSI approved November 1, 2016; IBR approved for appendices F, M1, and M2 to subpart B.\n\n(2) ANSI/ASHRAE 23.1-2010 (\u201cASHRAE 23.1-2010\u201d), Methods of Testing for Rating the Performance of Positive Displacement Refrigerant Compressors and Condensing Units that Operate at Subcritical Temperatures of the Refrigerant, ANSI approved January 28, 2010; IBR approved for appendix M to subpart B, as follows:\n\n(i) Section 5\u2014Requirements;\n\n(ii) Section 6\u2014Instruments;\n\n(iii) Section 7\u2014Methods of Testing; and\n\n(iv) Section 8\u2014Compressor Testing.\n\n(3) ANSI/ASHRAE Standard 37-2009, (\u201cASHRAE 37-2009\u201d), Methods of Testing for Rating Electrically Driven Unitary Air-Conditioning and Heat Pump Equipment, ANSI approved June 25, 2009; IBR approved for appendices CC, CC1, M1, and M2 to subpart B.\n\n(4) ANSI/ASHRAE Standard 37-2009, (\u201cANSI/ASHRAE 37-2009\u201d), Methods of Testing for Rating Electrically Driven Unitary Air-Conditioning and Heat Pump Equipment, ANSI approved June 25, 2009, IBR approved for appendix M to subpart B, as follows:\n\n(i) Section 5\u2014Instruments, Section 5.1\u2014Temperature Measuring Instruments: 5.1.1;\n\n(ii) Section 5\u2014Instruments, Section 5.2\u2014Refrigerant, Liquid, and Barometric Pressure Measuring Instruments;\n\n(iii) Section 5\u2014Instruments, Section 5.5\u2014Volatile Refrigerant Flow Measurement;\n\n(iv) Section 6\u2014Airflow and Air Differential Pressure Measurement Apparatus, Section 6.1\u2014Enthalpy Apparatus (Excluding Figure 3): 6.1.1-6.1.2 and 6.1.4;\n\n(v) Section 6\u2014Airflow and Air Differential Pressure Measurement Apparatus, Section 6.2\u2014Nozzle Airflow Measuring Apparatus (Excluding Figure 5);\n\n(vi) Section 6\u2014Airflow and Air Differential Pressure Measurement Apparatus, Section 6.3\u2014Nozzles (Excluding Figure 6);\n\n(vii) Section 6\u2014Airflow and Air Differential Pressure Measurement Apparatus, Section 6.4\u2014External Static Pressure Measurements;\n\n(viii) Section 6\u2014Airflow and Air Differential Pressure Measurement Apparatus, Section 6.5\u2014Recommended Practices for Static Pressure Measurements;\n\n(ix) Section 7\u2014Methods of Testing and Calculation, Section 7.3\u2014Indoor and Outdoor Air Enthalpy Methods (Excluding Table 1);\n\n(x) Section 7\u2014Methods of Testing and Calculation, Section 7.4\u2014Compressor Calibration Method;\n\n(xi) Section 7\u2014Methods of Testing and Calculation, Section 7.5\u2014Refrigerant Enthalpy Method;\n\n(xii) Section 7\u2014Methods of Testing and Calculation, Section 7.7\u2014Airflow Rate Measurement, Section 7.7.2\u2014Calculations\u2014Nozzle Airflow Measuring Apparatus (Excluding Figure 10), 7.7.2.1-7.7.2.2;\n\n(xiii) Section 8\u2014Test Procedures, Section 8.1\u2014Test Room Requirements: 8.1.2-8.1.3;\n\n(xiv) Section 8\u2014Test Procedures, Section 8.2\u2014Equipment Installation;\n\n(xv) Section 8\u2014Test Procedures, Section 8.6\u2014Additional Requirements for the Outdoor Air Enthalpy Method, Section 8.6.2;\n\n(xvii) Section 8\u2014Test Procedures, Section 8.6\u2014Additional Requirements for the Outdoor Air Enthalpy Method, Table 2a\u2014Test Tolerances (SI Units), and\n\n(xviii) Section 8\u2014Test Procedures, Section 8.6\u2014Additional Requirements for the Outdoor Air Enthalpy Method, Table 2b\u2014Test Tolerances (I-P Units);\n\n(xix) Section 9\u2014Data to be Recorded, Section 9.2\u2014Test Tolerances; and\n\n(xx) Section 9\u2014Data to be Recorded, Table 3\u2014Data to be Recorded.\n\n(5) ANSI/ASHRAE Standard 37-2009 (RA 2019) (\u201cASHRAE 37-2009 (RA 2019)\u201d), Methods of Testing for Rating Electrically Driven Unitary Air-Conditioning and Heat Pump Equipment, ASHRAE-approved June 21, 2019; IBR approved for appendix AA to subpart B.\n\n(6) ANSI/ASHRAE Standard 37-2009 Errata Sheet (\u201cASHRAE 37-2009 Errata Sheet\u201d), Errata Sheet for ANSI/ASHRAE Standard 37-2009\u2014Methods of Testing for Rating Electrically Driven Unitary Air-Conditioning and Heat Pump Equipment, ASHRAE-approved March 27, 2019; IBR approved for appendix AA to subpart B.\n\n(7) ASHRAE 41.1-1986 (Reaffirmed 2006) (\u201cASHRAE 41.1-1986\u201d), Standard Method for Temperature Measurement, approved February 18, 1987; IBR approved for appendices AA, CC, and CC1 to subpart B.\n\n(8) ANSI/ASHRAE 41.1-2013 (\u201cANSI/ASHRAE 41.1\u201d), Standard Method for Temperature Measurement, ANSI approved January 30, 2013; IBR approved for appendices F and X1 to subpart B.\n\n(9) ANSI/ASHRAE Standard 41.1-2013, (\u201cANSI/ASHRAE 41.1-2013\u201d), Standard Method for Temperature Measurement, ANSI approved January 30, 2013, IBR approved for appendix M to subpart B, as follows:\n\n(i) Section 4\u2014Classifications;\n\n(ii) Section 5\u2014Requirements, Section 5.3\u2014Airstream Temperature Measurements;\n\n(iii) Section 6\u2014Instruments; and\n\n(iv) Section 7\u2014Temperature Test Methods (Informative).\n\n(10) ANSI/ASHRAE Standard 41.1-2020 (\u201cASHRAE 41.1-2020\u201d), Standard Methods for Temperature Measurement, ANSI-approved June 30, 2020; IBR approved for appendix E to subpart B.\n\n(11) ANSI/ASHRAE Standard 41.2-1987 (RA 92), (\u201cASHRAE 41.2-1987 (RA 1992)\u201d), Standard Methods for Laboratory Airflow Measurement, ANSI reaffirmed April 20, 1992, IBR approved for appendix F to subpart B.\n\n(12) ANSI/ASHRAE Standard 41.2-1987 (RA 1992), (\u201cASHRAE 41.2-1987 (RA 1992)\u201d), Standard Methods for Laboratory Airflow Measurement, ANSI reaffirmed April 20, 1992, Section 5\u2014Section of Airflow-Measuring Equipment and Systems, IBR approved for appendix M to subpart B, as follows:\n\n(i) Section 5.2\u2014Test Ducts,, Section 5.2.2\u2014Mixers, 5.2.2.1\u2014Performance of Mixers (excluding Figures 11 and 12 and Table 1); and\n\n(ii) Figure 14\u2014Outlet Chamber Setup for Multiple Nozzles in Chamber.\n\n(13) ANSI/ASHRAE Standard 41.3-2014, (\u201cASHRAE 41.3-2014\u201d), Standard Methods for Pressure Measurement, ANSI approved July 3, 2014, IBR approved for appendix F to subpart B.\n\n(14) ANSI/ASHRAE Standard 41.6-1994 (RA 2006) (\u201cASHRAE 41.6-1994\u201d), Standard Method for Measurement of Moist Air Properties, ANSI-reaffirmed January 27, 2006; IBR approved for appendices CC and CC1 to subpart B.\n\n(15) ANSI/ASHRAE Standard 41.6-2014, (\u201cASHRAE 41.6-2014\u201d), Standard Method for Humidity Measurement, ANSI approved July 3, 2014, IBR approved for appendices E, F, and EE to subpart B.\n\n(16) ANSI/ASHRAE Standard 41.6-2014, (\u201cASHRAE 41.6-2014\u201d), Standard Method for Humidity Measurement, ANSI approved July 3, 2014, IBR approved for appendix M to subpart B, as follows:\n\n(i) Section 4\u2014Classifications;\n\n(ii) Section 5\u2014Requirements;\n\n(iii) Section 6\u2014Instruments and Calibration; and\n\n(iv) Section 7\u2014Humidity Measurement Methods.\n\n(17) ANSI/ASHRAE 41.9-2011, (\u201cASHRAE 41.9-2011\u201d), Standard Methods for Volatile-Refrigerant Mass Flow Measurements Using Calorimeters, ANSI approved February 3, 2011, IBR approved for appendix M to subpart B, as follows:\n\n(i) Section 5\u2014Requirements;\n\n(ii) Section 6\u2014Instruments;\n\n(iii) Section 7\u2014Secondary Refrigerant Calorimeter Method;\n\n(iv) Section 8\u2014Secondary Fluid Calorimeter Method;\n\n(v) Section 9\u2014Primary Refrigerant Calorimeter Method; and\n\n(vi) Section 11\u2014Lubrication Circulation Measurements.\n\n(18) ANSI/ASHRAE Standard 41.11-2014, (\u201cASHRAE 41.11-2014\u201d), Standard Methods for Power Measurement, ANSI approved July 3, 2014, IBR approved for appendix F to subpart B.\n\n(19) ANSI/ASHRAE Standard 103-1993, (\u201cASHRAE 103-1993\u201d), Methods of Testing for Annual Fuel Utilization Efficiency of Residential Central Furnaces and Boilers, (with Errata of October 24, 1996), except for sections 7.1, 7.2.2.2, 7.2.2.5, 7.2.3.1, 7.8, 8.2.1.3, 8.3.3.1, 8.4.1.1, 8.4.1.1.2, 8.4.1.2, 8.4.2.1.4, 8.4.2.1.6, 8.6.1.1, 8.7.2, 8.8.3, 9.1.2.2.1, 9.1.2.2.2, 9.5.1.1, 9.5.1.2.1, 9.5.1.2.2, 9.5.2.1, 9.7.1, 9.7.4, 9.7.6, 9.10, 11.5.11.1, 11.5.11.2 and appendices B and C, approved October 4, 1993, IBR approved for \u00a7 430.23 and appendix N to subpart B.\n\n(20) ANSI/ASHRAE Standard 103-2017 (\u201cASHRAE 103-2017\u201d), Method of Testing for Annual Fuel Utilization Efficiency of Residential Central Furnaces and Boilers, ANSI-approved July 3, 2017; IBR approved for \u00a7 430.23 and appendices O, AA, and EE to subpart B.\n\n(21) ANSI/ASHRAE Standard 116-2010, (\u201cASHRAE 116-2010\u201d), Methods of Testing for Rating Seasonal Efficiency of Unitary Air Conditioners and Heat Pumps, ANSI approved February 24, 2010, Section 7\u2014Methods of Test, Section 7.4\u2014Air Enthalpy Method\u2014Indoor Side (Primary Method), Section 7.4.3\u2014Measurements, Section 7.4.3.4\u2014Temperature, Section 7.4.3.4.5, IBR approved for appendix M to subpart B.\n\n(22) ANSI/ASHRAE Standard 116-2010, (\u201cANSI/ASHRAE 116-2010\u201d), Methods of Testing for Rating Seasonal Efficiency of Unitary Air Conditioners and Heat Pumps, ANSI approved February 24, 2010, IBR approved for appendices M1 and M2 to subpart B.\n\n(23) ANSI/ASHRAE Standard 118.2-2022 (\u201cASHRAE 118.2-2022\u201d), Method of Testing for Rating Residential Water Heaters and Residential-Duty Commercial Water Heaters, ANSI-approved March 1, 2022; IBR approved for appendix E to subpart B.\n\n(24) ANSI/ASHRAE Standard 146-2011 (\u201cASHRAE 146\u201d), Method of Testing and Rating Pool Heaters, ASHRAE approved February 2, 2011, IBR approved for appendix P to subpart B.\n\n(25) 2021 ASHRAE Handbook\u2014Fundamentals Inch-Pound Edition, Chapter 1, \u201cPsychrometrics\u201d (\u201c2021 ASHRAE Handbook\u201d), copyright 2021; IBR approved for appendix AA to subpart B.\n\n(h) ASME. American Society of Mechanical Engineers, Three Park Avenue, New York, NY 10016-5990, 1-800 843-2763, or go to www.asme.org.\n\n(1) ASME A112.18.1-2018/CSA B125.1-2018, (\u201cASME A112.18.1\u201d), Plumbing supply fittings, CSA-published July 2018; IBR approved for appendix S to subpart B.\n\n(2) ASME A112.19.2-2008, (\u201cASME A112.19.2-2008\u201d), \u201cCeramic plumbing fixtures,\u201d sections 7.1, 7.1.1, 7.1.2, 7.1.3, 7.1.4, 7.1.5, 7.4, 8.2, 8.2.1, 8.2.2, 8.2.3, 8.6, Table 5, and Table 6 approved August 2008, including Update No. 1, dated August 2009, and Update No. 2, dated March 2011, IBR approved for \u00a7 430.2 and appendix T to subpart B.\n\n(3) ASME A112.19.2-2018/CSA B45.1-18 (\u201cASME A112.19.2-2018\u201d), \u201cCeramic plumbing fixtures\u201d, July 2018 (including Errata\u2014October 2018); IBR approved for appendix T to subpart B.\n\n(i) AHAM. Association of Home Appliance Manufacturers, 1111 19th Street NW, Suite 402, Washington, DC 20036, 202-872-5955, or go to https:////www.aham.org.\n\n(1) ANSI/AHAM AC-1-2020, (\u201cAHAM AC-1-2020\u201d), Method for Measuring Performance of Portable Household Electric Room Air Cleaners, ANSI-approved December 14, 2020, including AHAM Standard Interpretation dated September 19, 2022; IBR approved for appendix FF to subpart B.\n\n(2) AHAM AC-7-2022, Energy Test Method for Consumer Room Air Cleaners, copyright 2022; IBR approved for \u00a7 430.2 and appendix FF to subpart B.\n\n(3) AHAM DH-1-2022, Energy Measurement Test Procedure for Dehumidifiers, copyright 2022; IBR approved for appendix X1 to subpart B.\n\n(4) AHAM DW-1-2020, Uniform Test Method for Measuring the Energy Consumption of Dishwashers, copyright 2020; IBR approved for \u00a7 430.32; appendices C1 and C2 to subpart B.\n\n(5) AHAM DW-2-2020, Household Electric Dishwashers, copyright 2020; IBR approved for appendices C1 and C2 to subpart B.\n\n(6) ANSI/AHAM HLD-1-2010 (\u201cAHAM HLD-1\u201d), Household Tumble Type Clothes Dryers, ANSI-approved June 11, 2010, IBR approved for appendices D1 and D2 to subpart B of this part.\n\n(7) AHAM HRF-1-2019 (\u201cHRF-1-2019\u201d), Energy and Internal Volume of Consumer Refrigeration Products, Copyright \u00a9 2019, IBR approved for appendices A and B to subpart B of this part.\n\n(8) ANSI/AHAM PAC-1-2015, (\u201cANSI/AHAM PAC-1-2015\u201d), Portable Air Conditioners, June 19, 2015, IBR approved for appendix CC to subpart B of this part.\n\n(9) AHAM PAC-1-2022, Energy Measurement Test Procedure for Portable Air Conditioners, Copyright 2022; IBR approved for appendix CC1 to subpart B of this part.\n\n(10) AHAM RAC-1-2020 (\u201cAHAM RAC-1\u201d), Energy Measurement Test Procedure for Room Air Conditioners, approved 2020, IBR approved for appendix F to subpart B.\n\n(j) ASTM. ASTM International, 100 Barr Harbor Drive, P.O. Box C700, West Conshohocken, PA 19428-2959; 877-909-2786; service@astm.org; www.astm.org.\n\n(1) ASTM D2156-09 (Reapproved 2013) (\u201cASTM D2156R13\u201d), Standard Test Method for Smoke Density in Flue Gases from Burning Distillate Fuels, approved October 1, 2013; IBR approved for appendix N to subpart B.\n\n(2) ASTM D2156-09 (Reapproved 2018) (\u201cASTM D2156 (R2018)\u201d), Standard Test Method for Smoke Density in Flue Gases from Burning Distillate Fuels, approved October 1, 2018; IBR approved for appendices E, O, and EE to subpart B.\n\n(3) ASTM E97-82 (Reapproved 1987) (\u201cASTM E97-1987\u201d), Standard Test Method for Directional Reflectance Factor, 45-deg 0-deg, of Opaque Specimens by Broad-Band Filter Reflectometry, ASTM-approved October 29, 1982; IBR approved for appendix E to subpart B.\n\nASTM E97-1987 was withdrawn in 1991. It is reasonably available from standards resellers including GlobalSpec's Engineering 360 ( https://standards.globalspec.com/std/3801495/astm-e97-82-1987 ) and IHS Markit ( https://global.ihs.com/doc_detail.cfm?document_name=ASTM%20E97&item_s_key=00020483 ).\n\n(4) ASTM E741-11 (Reapproved 2017) (\u201cASTM E741-11(2017)\u201d), Standard Test Method for Determining Air Change in a Single Zone Means of a Tracer Gas Dilution Approved Sept. 1, 2017; IBR approved for appendix FF to subpart B.\n\n(k) CSA. CSA Group, 178 Rexdale Blvd., Toronto, ON, Canada M9W 1R3, 1-800-463-6727 or 416-747-4044, www.csagroup.org.\n\n(1) ANSI Z21.86-2016 \u2022 CSA 2.32-2016 (\u201cANSI Z21.86-2016\u201d), Vented gas-fired space heating appliances, ANSI-approved December 21, 2016; IBR approved for appendix O to subpart B.\n\n(2) CSA C374:11 (R2021), Energy performance of hot tubs and spas, published November 2011, Update No. 1\u2014National Standard of Canada\u2014April 2012; IBR approved for appendix GG to subpart B of this part.\n\n(l) CEA. Consumer Electronics Association, Technology & Standards Department, 1919 S. Eads Street, Arlington, VA 22202, 703-907-7600, or go to www.CE.org.\n\n(1) CEA Standard, CEA-770.3-D, High Definition TV Analog Component Video Interface, published February 2008; IBR approved for \u00a7 430.2.\n\n(2) [Reserved]\n\n(m) CIE. Commission Internationale de l'Eclairage (CIE), Central Bureau, Kegelgasse 27, A-1030, Vienna, Austria, 011 + 43 1 714 31 87 0, or go to https://www.cie.co.at.\n\n(1) CIE 13.3-1995 (\u201cCIE 13.3\u201d), Technical Report: Method of Measuring and Specifying Colour Rendering Properties of Light Sources, 1995, ISBN 3 900 734 57 7; IBR approved for \u00a7 430.2 and appendices R and W to subpart B.\n\n(2) CIE 15:2004 (\u201cCIE 15\u201d), Technical Report: Colorimetry, 3rd edition, 2004, ISBN 978 3 901906 33 6; IBR approved for appendix W to subpart B.\n\n(3) CIE 015:2018 (\u201cCIE 15:2018\u201d), Colorimetry, 4th edition, copyright 2018; IBR approved for the appendix R to subpart B.\n\n(n) CTA. Consumer Technology Association, 1919 S. Eads Street, Arlington, VA 22202; 703-907-7600; www.cta.tech.\n\n(1) ANSI/CTA-2037-D, Determination of Television Set Power Consumption, September 2022; IBR approved for appendix H to subpart B.\n\n(2) [Reserved]\n\n(o) Environmental Protection Agency (EPA), ENERGY STAR documents published by the Environmental Protection Agency are available online at https://www.energystar.gov or by contacting the Energy Star hotline at 1-888-782-7937.\n\n(1) ENERGY STAR Testing Facility Guidance Manual: Building a Testing Facility and Performing the Solid State Test Method for ENERGY STAR Qualified Ceiling Fans, Version 1.1, approved December 9, 2002, IBR approved for appendix U to subpart B.\n\n(2) Energy Star Program Requirements for Single Voltage External Ac-Dc and Ac-Ac Power Supplies, Eligibility Criteria (Version 2.0), effective date for EPS Manufacturers November 1, 2008, IBR approved for subpart C, \u00a7 430.32.\n\n(p) HDMI \u00ae. High-Definition Multimedia Interface Licensing, LLC, 1140 East Arques Avenue, Suite 100, Sunnyvale, CA 94085, 408-616-1542, or go to www.hdmi.org.\n\n(1) HDMI Specification Informational Version 1.0, High-Definition Multimedia Interface Specification, published September 4, 2003; IBR approved for \u00a7 430.2.\n\n(2) [Reserved]\n\n(q) IEC. International Electrotechnical Commission, 3 Rue de Varembe, Case Postale 131, 1211 Geneva 20, Switzerland; https://webstore.iec.ch/.\n\n(1) IEC Standard 933-5:1992, (\u201cIEC 60933-5 Ed. 1.0\u201d), Audio, video and audiovisual systems\u2014Interconnections and matching values\u2014Part 5: Y/C connector for video systems\u2014Electrical matching values and description of the connector, First Edition, 1992-12; IBR approved for \u00a7 430.2. (Note: IEC 933-5 is also known as IEC 60933-5.)\n\n(2) IEC 60081:1997/AMD6, (\u201cIEC 60081\u201d), Double-capped fluorescent lamps\u2014Performance specifications (Amendment 6, Edition 5.0, August 2017); IBR approved for appendix Q to subpart B.\n\n(3) IEC 60350-2, (\u201cIEC 60350-2\u201d), Household electric cooking appliances Part 2: Hobs\u2014Methods for measuring performance, Edition 2.1, 2021-05; IBR approved for appendix I1 to subpart B.\n\n(4) IEC 62040-3:2021 (\u201cIEC 62040-3 Ed. 3.0\u201d) Uninterruptible power systems (UPS)\u2014Part 3: Method of specifying the performance and test requirements, Edition 3.0, 2021-04; IBR approved for appendices Y and Y1 to subpart B.\n\n(5) IEC 62301, Household electrical appliances\u2014Measurement of standby power, first edition, June 2005; IBR approved for appendices I, I1 to subpart B.\n\n(6) IEC 62301 (\u201cIEC 62301\u201d), Household electrical appliances \u2014 Measurement of standby power, (Edition 2.0, 2011-01); IBR approved for appendices C1, C2, D1, D2, F, G, I, I1, J, J2, N, O, P, Q, U, X1, Y, Y1, Z, BB, CC, CC1, EE, and FF to subpart B.\n\n(7) IEC 62301, (\u201cIEC 62301-DD\u201d), Household electrical appliances\u2014Measurement of standby power, (Edition 2.0, 2011-01); Section 5\u2014Measurements, IBR approved for appendix DD to subpart B.\n\n(8) IEC 62301, (\u201cIEC 62301-W\u201d), Household electrical appliances\u2014Measurement of standby power, (Edition 2.0, 2011-01), Section 5\u2014Measurements, IBR approved for appendix W to subpart B.\n\n(r) IES. Illuminating Engineering Society (formerly Illuminating Engineering Society of North America\u2014IESNA), 120 Wall Street, Floor 17, New York, NY 10005-4001, 212-248-5000, or go to www.ies.org.\n\n(1) The IESNA Lighting Handbook, Reference & Application, (\u201cThe IESNA Lighting Handbook\u201d), 9th ed., Chapter 6, \u201cLight Sources,\u201d July 2000, IBR approved for \u00a7 430.2.\n\n(2) IES LM-9-09, (\u201cIES LM-9\u201d), IES Approved Method for the Electrical and Photometric Measurement of Fluorescent Lamps, approved January 31, 2009; IBR approved for \u00a7 430.2.\n\n(3) IES LM-9-09 (\u201cIES LM-9-09-DD\u201d), IES Approved Method for the Electrical and Photometric Measurement of Fluorescent Lamps, approved January 31, 2009; IBR approved for appendix DD to subpart B, as follows:\n\n(i) Section 4.0\u2014Ambient and Physical Conditions;\n\n(ii) Section 5.0\u2014Electrical Conditions;\n\n(iii) Section 6.0\u2014Lamp Test Procedures; and\n\n(iv) Section 7.0\u2014Photometric Test Procedures: Section 7.5\u2014Integrating Sphere Measurement.\n\n(4) ANSI/IES LM-9-20 (\u201cIES LM-9-20\u201d), Approved Method: Electrical and Photometric Measurements of Fluorescent Lamps, ANSI-approved February 7, 2020; IBR approved for appendices R and V to subpart B.\n\n(5) IESNA LM-16-1993 (\u201cIESNA LM-16\u201d), IESNA Practical Guide to Colorimetry of Light Sources, December 1993, IBR approved for \u00a7 430.2.\n\n(6) IES LM-20-13, IES Approved Method for Photometry of Reflector Type Lamps, approved February 4, 2013; IBR approved for appendix DD to subpart B, as follows:\n\n(i) Section 4.0\u2014Ambient and Physical Conditions;\n\n(ii) Section 5.0\u2014Electrical and Photometric Test Conditions;\n\n(iii) Section 6.0\u2014Lamp Test Procedures; and\n\n(iv) Section 8.0\u2014Total Flux Measurements by Integrating Sphere Method.\n\n(7) ANSI/IES LM-20-20 (\u201cIES LM-20-20\u201d), Approved Method: Photometry of Reflector Type Lamps, ANSI-approved February 7, 2020; IBR approved for appendix R to subpart B.\n\n(8) IES LM-45-15, IES Approved Method for the Electrical and Photometric Measurement of General Service Incandescent Filament Lamps, approved August 8, 2015; IBR approved for appendix DD to subpart B as follows:\n\n(i) Section 4.0\u2014Ambient and Physical Conditions;\n\n(ii) Section 5.0\u2014Electrical Conditions;\n\n(iii) Section 6.0\u2014Lamp Test Procedures; and\n\n(iv) Section 7.0\u2014Photometric Test Procedures: Section 7.1\u2014Total Luminous Flux Measurements with an Integrating Sphere.\n\n(9) IES LM-45-20 (\u201cIES LM-45-20\u201d), Approved Method: Electrical and Photometric Measurement of General Service Incandescent Filament Lamps, ANSI-approved February 7, 2020; IBR approved for appendix R to subpart B.\n\n(10) ANSI/IES LM-49-20 (\u201cIES LM-49-20\u201d), Approved Method: Life Testing of Incandescent Filament Lamps, ANSI-approved February 7, 2020; IBR approved for appendix R to subpart B.\n\n(11) IES LM-54-12, IES Guide to Lamp Seasoning, approved October 22, 2012; IBR approved for appendix W to subpart B, as follows:\n\n(i) Section 4\u2014Physical/Environmental Test Conditions;\n\n(ii) Section 5\u2014Electrical Test Conditions;\n\n(iii) Section 6\u2014Test Procedure Requirements: Section 6.1\u2014Test Preparation; and\n\n(iv) Section 6\u2014Test Procedure Requirements, Section 6.2\u2014Seasoning Test Procedures: Section 6.2.2.1\u2014Discharge Lamps: Discharge Lamps except T5 fluorescent.\n\n(12) ANSI/IES LM-54-20 (\u201cIES LM-54-20\u201d), Approved Method: IES Guide to Lamp Seasoning, ANSI-approved February 7, 2020; IBR approved for appendices R and V to subpart B.\n\n(13) ANSI/IES LM-58-20 (\u201cIES LM-58-20\u201d), Approved Method: Spectroradiometric Measurement Methods for Light Sources; ANSI-approved February 7, 2020; IBR approved for appendix R to subpart B.\n\n(14) IES LM-65-14, IES Approved Method for Life Testing of Single-Based Fluorescent Lamps, approved December 30, 2014; IBR approved for appendix W to subpart B, as follows:\n\n(i) Section 4.0\u2014Ambient and Physical Conditions;\n\n(ii) Section 5.0\u2014Electrical Conditions; and\n\n(iii) Section 6.0\u2014Lamp Test Procedures\n\n(15) IES LM-66-14, (\u201cIES LM-66\u201d), IES Approved Method for the Electrical and Photometric Measurements of Single-Based Fluorescent Lamps, approved December 30, 2014; IBR approved for appendix W to subpart B, as follows:\n\n(i) Section 4.0\u2014Ambient and Physical Conditions;\n\n(ii) Section 5.0\u2014Power Source Characteristics; and\n\n(iii) Section 6.0\u2014Testing Procedures Requirements.\n\n(16) ANSI/IES LM-75-19 (\u201cIES LM-75-19\u201d), Approved Method: Guide to Goniophotometer Measurements and Types, and Photometric Coordinate Systems, ANSI-approved November 22, 2019; IBR approved for appendix V to subpart B.\n\n(17) IESNA LM-78-07, IESNA Approved Method for Total Luminous Flux Measurement of Lamps Using an Integrating Sphere Photometer, approved January 28, 2007; IBR approved for appendix W to subpart B.\n\n(18) ANSI/IES LM-78-20 (\u201cIES LM-78-20\u201d) Approved Method: Total Luminous Flux Measurement of Lamps Using an Integrating Sphere Photometer, ANSI-approved February 7, 2020; IBR approved for appendices R and V to subpart B.\n\n(19) IES LM-79-08, (\u201cIES LM-79-08\u201d), IES Approved Method for the Electrical and Photometric Measurements of Solid-State Lighting Products, approved December 31, 2007; IBR approved for appendix BB to subpart B.\n\n(20) IES LM-79-08 (\u201cIES LM-79-08-DD\u201d), Approved Method: Electrical and Photometric Measurements of Solid-State Lighting Products, approved December 31, 2007; IBR approved for appendix DD to subpart B as follows:\n\n(i) Section 1.0 Introduction: Section 1.3\u2014Nomenclature and Definitions (except section 1.3f);\n\n(ii) Section 2.0\u2014Ambient Conditions;\n\n(iii) Section 3.0\u2014Power Supply Characteristics;\n\n(iv) Section 5.0\u2014Stabilization of SSL Product;\n\n(v) Section 7.0\u2014Electrical Settings;\n\n(vi) Section 8.0\u2014Electrical Instrumentation;\n\n(vii) Section 9.0\u2014Test Methods for Total Luminous Flux measurement: Section 9.1 Integrating sphere with a spectroradiometer (Sphere-spectroradiometer system); and Section 9.2\u2014Integrating sphere with a photometer head (Sphere-photometer system).\n\n(21) ANSI/IES LM-79-19 (\u201cIES LM-79-19\u201d), Approved Method: Optical and Electrical Measurements of Solid-State Lighting Products, ANSI-approved May 14, 2019; IBR approved for appendix V to subpart B.\n\n(22) IES LM-84-14, (\u201cIES LM-84\u201d), Approved Method: Measuring Luminous Flux and Color Maintenance of LED Lamps, Light Engines, and Luminaires, approved March 31, 2014; IBR approved for appendix BB to subpart B.\n\n(23) ANSI/IES RP-16-10 (\u201cANSI/IES RP-16\u201d), Nomenclature and Definitions for Illuminating Engineering, approved October 15, 2005; IBR approved for \u00a7 430.2.\n\n(24) IES TM-28-14, (\u201cIES TM-28\u201d), Projecting Long-Term Luminous Flux Maintenance of LED Lamps and Luminaires, approved May 20, 2014; IBR approved for appendix BB to subpart B.\n\n(s) International Safety Equipment Association, 1901 North Moore Street, Suite 808, Arlington, Virginia 22209, (703) 525-1695, www.safetyequipment.org.\n\n(1) ANSI/ISEA Z358.1-2014 (\u201cISEA Z358.1\u201d), American National Standard for Emergency Eyewash and Shower Equipment, ANSI-approved January 8, 2015, IBR approved for \u00a7 430.2.\n\n(2) [Reserved]\n\n(t) U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy. Resource Room of the Building Technologies Program, 950 L'Enfant Plaza SW., 6th Floor, Washington, DC 20024, 202-586-2945, (Energy Star materials are also found at https://www.energystar.gov. )\n\n(1) ITU-R BT.470-6, Conventional Television Systems, published November 1998; IBR approved for \u00a7 430.2.\n\n(2) [Reserved]\n\n(3) International Efficiency Marking Protocol for External Power Supplies, Version 3.0, September 2013, IBR approved for \u00a7 430.32.\n\n(u) NSF International. NSF International, P.O. Box 130140, 789 North Dixboro Road, Ann Arbor, MI 48113-0140, 1-800-673-6275, or go to https://www.nsf.org.\n\n(1) NSF/ANSI 51-2007 (\u201cNSF/ANSI 51\u201d), Food equipment materials, revised and adopted April 2007, IBR approved for \u00a7\u00a7 430.2 and 430.32.\n\n(2) [Reserved]\n\n(v) Optical Society of America. Optical Society of America, 2010 Massachusetts Ave., NW., Washington, DC 20036-1012, 202-223-8130, or go to https://www.opticsinfobase.org;\n\n(1) \u201cComputation of Correlated Color Temperature and Distribution Temperature,\u201d A.R. Robertson, Journal of the Optical Society of America, Volume 58, Number 11, November 1968, pages 1528-1535, IBR approved for \u00a7 430.2.\n\n(2) [Reserved]\n\n(w) PHTA. Pool & Hot Tub Alliance, 2111 Eisenhower Avenue, Suite 500, Alexandria, VA 22314 ( www.phta.org ), (703) 838-0083.\n\n(1) ANSI/APSP/ICC-14 2019, American National Standard for Portable Electric Spa Energy Efficiency, ANSI-approved November 19, 2019; IBR approved for appendix GG to subpart B of this part.\n\n(2) [Reserved]\n\n(x) SMPTE. Society of Motion Picture and Television Engineers, 3 Barker Ave., 5th Floor, White Plains, NY 10601, 914-761-1100, or go to https://standards.smpte.org.\n\n(1) SMPTE 170M-2004, (\u201cSMPTE 170M-2004\u201d), SMPTE Standard for Television\u2014Composite Analog Video Signal\u2014NTSC for Studio Applications, approved November 30, 2004; IBR approved for \u00a7 430.2.\n\n(2) [Reserved]\n\n(y) UL. Underwriters Laboratories, Inc., 2600 NW. Lake Rd., Camas, WA 98607-8542 ( www.UL.com )\n\n(1) UL 729 (\u201cUL 729-2016\u201d), Standard for Safety for Oil-Fired Floor Furnaces, Sixth Edition, dated August 29, 2003, including revisions through November 22, 2016; IBR approved for appendix O to subpart B.\n\n(2) UL 730 (\u201cUL 730-2016\u201d), Standard for Safety for Oil-Fired Wall Furnaces, Fifth Edition, dated August 29, 2003, including revisions through November 22, 2016; IBR approved for appendix O to subpart B.\n\n(3) UL 896 (\u201cUL 896-2016\u201d), Standard for Safety for Oil-Burning Stoves, Fifth Edition, dated July 29, 1993; including revisions through November 22, 2016, IBR approved for appendix O to subpart B.\n\n(4) UL 1598C (\u201cUL 1598C-2016\u201d), Standard for Safety for Light-Emitting Diode (LED) Retrofit Luminaire Conversion Kits, First edition, dated January 16, 2014 (including revisions through November 17, 2016); IBR approved for \u00a7 430.2."], ["10:10:3.0.1.4.18.1.11.4", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "A", "Subpart A\u2014General Provisions", "", "\u00a7 430.4 Sources for information and guidance.", "DOE", "", "", "[74 FR 12066, Mar. 23, 2009]", "(a) General. The standards listed in this paragraph are referred to in the DOE test procedures and elsewhere in this part but are not incorporated by reference. These sources are given here for information and guidance.\n\n(b) IESNA. Illuminating Engineering Society of North America, 120 Wall Street, Floor 17, New York, NY 10005-4001, 212-248-5000, or go to http://www.iesna.org.\n\n(1) Illuminating Engineering Society of North America Lighting Handbook, 8th Edition, 1993.\n\n(2) [Reserved]\n\n(c) IEEE. Institute of Electrical and Electronics Engineers, Inc., 3 Park Avenue, 17th Floor, New York, NY, 10016-5997, 212-419-7900, or go to http://www.ieee.org.\n\n(1) IEEE 1515-2000, IEEE Recommended Practice for Electronic Power Subsystems: Parameter Definitions, Test Conditions, and Test Methods, March 30, 2000.\n\n(2) IEEE 100, Authoritative Dictionary of IEEE Standards Terms, 7th Edition, January 1, 2006.\n\n(d) IEC. International Electrotechnical Commission, available from the American National Standards Institute, 11 W. 42nd Street, New York, NY 10036, 212-642-4936, or go to http://www.iec.ch.\n\n(1) IEC 62301, Household electrical appliances\u2014Measurement of standby power, First Edition, June 13, 2005.\n\n(2) IEC 60050, International Electrotechnical Vocabulary.\n\n(e) National Voluntary Laboratory Accreditation Program, Standards Services Division, NIST, 100 Bureau Drive, Stop 2140, Gaithersburg, MD 20899-2140, 301-975-4016, or go to http://ts.nist.gov/standards/accreditation.\n\n(1) National Voluntary Laboratory Accreditation Program Handbook 150-01, Energy Efficient Lighting Products, Lamps and Luminaires, August 1993.\n\n(2) [Reserved]"], ["10:10:3.0.1.4.18.1.11.5", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "A", "Subpart A\u2014General Provisions", "", "\u00a7 430.5 Error correction procedures for energy conservation standards rules.", "DOE", "", "", "[81 FR 57757, Aug. 24, 2016], as amended at 89 FR 22924, Apr. 3, 2024", "(a) Scope and purpose. The regulations in this section describe an optional procedure through which the Department of Energy may accept and consider submissions regarding possible Errors in its rules under the Energy Policy and Conservation Act, as amended (42 U.S.C. 6291-6317). This section applies to rules establishing or amending energy conservation standards under the Act, except that this section does not apply to direct final rules issued pursuant to section 325(p)(4) of the Act (42 U.S.C. 6295(p)(4)).\n\n(b) Definitions.\n\nAct means the Energy Policy and Conservation Act of 1975, as amended (42 U.S.C. 6291-6317).\n\nError means an aspect of the regulatory text of a rule that is inconsistent with what the Secretary intended regarding the rule at the time of posting. Examples of possible mistakes that might give rise to Errors include:\n\n(i) A typographical mistake that causes the regulatory text to differ from how the preamble to the rule describes the rule;\n\n(ii) A calculation mistake that causes the numerical value of an energy conservation standard to differ from what technical support documents would justify; or\n\n(iii) A numbering mistake that causes a cross-reference to lead to the wrong text.\n\nRule means a rule establishing or amending an energy conservation standard under the Act.\n\nSecretary means the Secretary of Energy or an official with delegated authority to perform a function of the Secretary of Energy under this section.\n\n(c) Posting of rules. (1) It is within in the sole discretion of the Secretary to make a rule available to the public to review for Errors in the document's regulatory text.\n\n(2) If a rule is made available for review, the Secretary ordinarily will keep the document posted for a period of 45 calendar days, but the Secretary in his or her discretion (while remaining consistent with his or her statutory obligations under EPCA and other legal obligations when promulgating an energy conservation standard) may shorten or lengthen the time period during which the rule document is posted.\n\n(3) Any rule document posted pursuant to paragraph (c)(1) of this section shall bear the following disclaimer: Notice: The text of this rule is subject to correction based on the identification of errors as defined in 10 CFR 430.5 before publication in the Federal Register. Readers are requested to notify the United States Department of Energy, by email at [EMAIL ADDRESS PROVIDED IN POSTED NOTICE], of any typographical or other errors, as described in such regulations, by no later than midnight on [DATE SPECIFIED IN THE POSTING OF THE DOCUMENT ON THE DEPARTMENT'S WEBSITE], in order that DOE may make any necessary corrections in the regulatory text submitted to the Office of the Federal Register for publication.\n\n(d) Request for error-correction review. (1) A person identifying an Error subject to this section may request that the Secretary review a potential Error. Such a request must ordinarily be submitted within 45 calendar days of the posting of the rule pursuant to paragraph (c)(1) of this section. The Secretary in his or her discretion may shorten or lengthen the time period during which such requests may be submitted.\n\n(2)(i) A request under this section must identify a potential Error with particularity. The request must specify the regulatory text claimed to be erroneous. The request must also provide text that the requester contends would be a correct substitute. If a requester is unable to identify a correct substitute, the requester may submit a request that states that the requester is unable to determine what text would be correct and explains why the requester is unable to do so. The request must also substantiate the claimed Error by citing evidence from the existing record of the rulemaking, demonstrating that the regulatory text of the rule is inconsistent with what the Secretary intended the text to be.\n\n(ii) A person's disagreement with any policy choices or discretionary decisions that are contained in the rule will not constitute a valid basis for a request under this section. All policy and discretionary decisions with regard to whether to establish or amend any conservation standard and, if so, the appropriate level at which to amend or establish that standard, remain within the sole discretion of the Secretary without regard to the procedures established in this section.\n\n(3) The evidence to substantiate a request (or evidence of the Error itself) must be in the record of the rulemaking at the time of posting the rule, which may include an accompanying preamble. The Secretary will not consider new evidence submitted in connection with an error-correction request.\n\n(4) A request under this section must be filed in electronic format by email to the address that the disclaimer to the rule designates for error-correction requests. Should filing by email not be feasible, the requester should contact the program point of contact designated in the rule order to ascertain an appropriate alternative means of filing an error-correction request.\n\n(5) A request that does not comply with the requirements of this section will not be considered.\n\n(e) Correction of rules. The Secretary may respond to a request for correction under paragraph (d) of this section or address an Error discovered on the Secretary's own initiative by submitting to the Office of the Federal Register either a corrected rule or the rule as previously posted.\n\n(f) Publication in the Federal Register. (1) If, after receiving one or more properly filed requests for correction, the Secretary decides not to undertake any corrections, the Secretary will submit the rule for publication to the Office of the Federal Register as it was posted pursuant to paragraph (c)(1) of this section.\n\n(2) If the Secretary receives no properly filed requests after posting a rule and identifies no Errors on the Secretary's own initiative, the Secretary will submit the rule, as it was posted pursuant to paragraph (c)(1) of this section, to the Office of the Federal Register for publication. This will occur after the period prescribed pursuant to paragraph (c)(2) of this section has elapsed.\n\n(3) If the Secretary receives a properly filed request after posting a rule pursuant to paragraph (c)(1) of this section and determines that a correction is necessary, or discovers an Error on the Secretary's own initiative, the Secretary will, absent extenuating circumstances, submit a corrected rule for publication in the Federal Register within 30 days after the period prescribed by paragraph (c)(2) of this section has elapsed.\n\n(4) Consistent with the Act, compliance with an energy conservation standard will be required upon the specified compliance date as published in the relevant rule in the Federal Register .\n\n(5) Consistent with the Administrative Procedure Act, and other applicable law, the Secretary will ordinarily designate an effective date for a rule under this section that is no less than 30 days after the publication of the rule in the Federal Register .\n\n(6) When the Secretary submits a rule for publication, the Secretary will make publicly available a written statement indicating how any properly filed requests for correction were handled.\n\n(g) Alteration of standards. Until an energy conservation standard has been published in the Federal Register, the Secretary may correct such standard, consistent with the Administrative Procedure Act.\n\n(h) Judicial review. For determining the prematurity, timeliness, or lateness of a petition for judicial review pursuant to section 336(b) of the Act (42 U.S.C. 6306), a rule is considered \u201cprescribed\u201d on the date when the rule is published in the Federal Register ."], ["10:10:3.0.1.4.18.2.11.1", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "B", "Subpart B\u2014Test Procedures", "", "\u00a7 430.21 Purpose and scope.", "DOE", "", "", "", "This subpart contains test procedures required to be prescribed by DOE pursuant to section 323 of the Act."], ["10:10:3.0.1.4.18.2.11.2", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "B", "Subpart B\u2014Test Procedures", "", "\u00a7 430.23 Test procedures for the measurement of energy and water consumption.", "DOE", "", "", "[42 FR 27898, June 1, 1977]", "When the test procedures of this section call for rounding off of test results, and the results fall equally between two values of the nearest dollar, kilowatt-hour, or other specified nearest value, the result shall be rounded up to the nearest higher value.\n\n(a) Refrigerators and refrigerator-freezers. (1) The estimated annual operating cost for models without an anti-sweat heater switch shall be the product of the following three factors, with the resulting product then being rounded to the nearest dollar per year:\n\n(i) The representative average-use cycle of 365 cycles per year;\n\n(ii) The average per-cycle energy consumption for the standard cycle in kilowatt-hours per cycle, determined according to appendix A of this subpart; and\n\n(iii) The representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary.\n\n(2) The estimated annual operating cost for models with an anti-sweat heater switch shall be the product of the following three factors, with the resulting product then being rounded to the nearest dollar per year:\n\n(i) The representative average-use cycle of 365 cycles per year;\n\n(ii) Half the sum of the average per-cycle energy consumption for the standard cycle and the average per-cycle energy consumption for a test cycle type with the anti-sweat heater switch in the position set at the factory just before shipping, each in kilowatt-hours per cycle, determined according to appendix A of this subpart; and\n\n(iii) The representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary.\n\n(3) The estimated annual operating cost for any other specified cycle type shall be the product of the following three factors, the resulting product then being rounded to the nearest dollar per year:\n\n(i) The representative average-use cycle of 365 cycles per year;\n\n(ii) The average per-cycle energy consumption for the specified cycle type, determined according to appendix A of this subpart; and\n\n(iii) The representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary.\n\n(4) The energy factor, expressed in cubic feet per kilowatt-hour per cycle, shall be:\n\n(i) For models without an anti-sweat heater switch, the quotient of:\n\n(A) The adjusted total volume in cubic feet, determined according to appendix A of this subpart, divided by\u2014\n\n(B) The average per-cycle energy consumption for the standard cycle in kilowatt-hours per cycle, determined according to appendix A of this subpart, the resulting quotient then being rounded to the second decimal place; and\n\n(ii) For models having an anti-sweat heater switch, the quotient of:\n\n(A) The adjusted total volume in cubic feet, determined according to appendix A of this subpart, divided by\u2014\n\n(B) Half the sum of the average per-cycle energy consumption for the standard cycle and the average per-cycle energy consumption for a test cycle type with the anti-sweat heater switch in the position set at the factory just before shipping, each in kilowatt-hours per cycle, determined according to appendix A of this subpart, the resulting quotient then being rounded to the second decimal place.\n\n(5) The annual energy use, expressed in kilowatt-hours per year and rounded to the nearest kilowatt-hour per year, shall be determined according to appendix A of this subpart.\n\n(6) Other useful measures of energy consumption shall be those measures of energy consumption that the Secretary determines are likely to assist consumers in making purchasing decisions which are derived from the application of appendix A of this subpart.\n\n(7) The following principles of interpretation shall be applied to the test procedure. The intent of the energy test procedure is to simulate typical room conditions (72 \u00b0F (22.2 \u00b0C)) with door openings, by testing at 90 \u00b0F (32.2 \u00b0C) without door openings. Except for operating characteristics that are affected by ambient temperature (for example, compressor percent run time), the unit, when tested under this test procedure, shall operate in a manner equivalent to the unit's operation while in typical room conditions.\n\n(i) The energy used by the unit shall be calculated when a calculation is provided by the test procedure. Energy consuming components that operate in typical room conditions (including as a result of door openings, or a function of humidity), and that are not excluded by this test procedure, shall operate in an equivalent manner during energy testing under this test procedure, or be accounted for by all calculations as provided for in the test procedure. Examples:\n\n(A) Energy saving features that are designed to operate when there are no door openings for long periods of time shall not be functional during the energy test.\n\n(B) The defrost heater shall neither function nor turn off differently during the energy test than it would when in typical room conditions. Also, the product shall not recover differently during the defrost recovery period than it would in typical room conditions.\n\n(C) Electric heaters that would normally operate at typical room conditions with door openings shall also operate during the energy test.\n\n(D) Energy used during adaptive defrost shall continue to be measured and adjusted per the calculation provided in this test procedure.\n\n(ii) DOE recognizes that there may be situations that the test procedures do not completely address. In such cases, a manufacturer must obtain a waiver in accordance with the relevant provisions of 10 CFR part 430 if:\n\n(A) A product contains energy consuming components that operate differently during the prescribed testing than they would during representative average consumer use; and\n\n(B) Applying the prescribed test to that product would evaluate it in a manner that is unrepresentative of its true energy consumption (thereby providing materially inaccurate comparative data).\n\n(b) Freezers. (1) The estimated annual operating cost for freezers without an anti-sweat heater switch shall be the product of the following three factors, with the resulting product then being rounded to the nearest dollar per year:\n\n(i) The representative average-use cycle of 365 cycles per year;\n\n(ii) The average per-cycle energy consumption for the standard cycle in kilowatt-hours per cycle, determined according to appendix B of this subpart; and\n\n(iii) The representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary.\n\n(2) The estimated annual operating cost for freezers with an anti-sweat heater switch shall be the product of the following three factors, with the resulting product then being rounded to the nearest dollar per year:\n\n(i) The representative average-use cycle of 365 cycles per year;\n\n(ii) Half the sum of the average per-cycle energy consumption for the standard cycle and the average per-cycle energy consumption for a test cycle type with the anti-sweat heater switch in the position set at the factory just before shipping, each in kilowatt-hours per cycle, determined according to appendix B of this subpart; and\n\n(iii) The representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary.\n\n(3) The estimated annual operating cost for any other specified cycle type for freezers shall be the product of the following three factors, with the resulting product then being rounded to the nearest dollar per year:\n\n(i) The representative average-use cycle of 365 cycles per year;\n\n(ii) The average per-cycle energy consumption for the specified cycle type, determined according to appendix B of this subpart; and\n\n(iii) The representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary.\n\n(4) The energy factor, expressed in cubic feet per kilowatt-hour per cycle, shall be:\n\n(i) For models without an anti-sweat heater switch, the quotient of:\n\n(A) The adjusted total volume in cubic feet, determined according to appendix B of this subpart, divided by\u2014\n\n(B) The average per-cycle energy consumption for the standard cycle in kilowatt-hours per cycle, determined according to appendix B of this subpart, the resulting quotient then being rounded to the second decimal place; and\n\n(ii) For models having an anti-sweat heater switch, the quotient of:\n\n(A) The adjusted total volume in cubic feet, determined according to appendix B of this subpart, divided by\u2014\n\n(B) Half the sum of the average per-cycle energy consumption for the standard cycle and the average per-cycle energy consumption for a test cycle type with the anti-sweat heater switch in the position set at the factory just before shipping, each in kilowatt-hours per cycle, determined according to appendix B of this subpart, the resulting quotient then being rounded to the second decimal place.\n\n(5) The annual energy use, expressed in kilowatt-hours per year and rounded to the nearest kilowatt-hour per year, shall be determined according to appendix B of this subpart.\n\n(6) Other useful measures of energy consumption for freezers shall be those measures the Secretary determines are likely to assist consumers in making purchasing decisions and are derived from the application of appendix B of this subpart.\n\n(7) The following principles of interpretation shall be applied to the test procedure. The intent of the energy test procedure is to simulate typical room conditions (72 \u00b0F (22.2 \u00b0C)) with door openings by testing at 90 \u00b0F (32.2 \u00b0C) without door openings. Except for operating characteristics that are affected by ambient temperature (for example, compressor percent run time), the unit, when tested under this test procedure, shall operate in a manner equivalent to the unit's operation while in typical room conditions.\n\n(i) The energy used by the unit shall be calculated when a calculation is provided by the test procedure. Energy consuming components that operate in typical room conditions (including as a result of door openings, or a function of humidity), and that are not excluded by this test procedure, shall operate in an equivalent manner during energy testing under this test procedure, or be accounted for by all calculations as provided for in the test procedure. Examples:\n\n(A) Energy saving features that are designed to operate when there are no door openings for long periods of time shall not be functional during the energy test.\n\n(B) The defrost heater shall neither function nor turn off differently during the energy test than it would when in typical room conditions. Also, the product shall not recover differently during the defrost recovery period than it would in typical room conditions.\n\n(C) Electric heaters that would normally operate at typical room conditions with door openings shall also operate during the energy test.\n\n(D) Energy used during adaptive defrost shall continue to be measured and adjusted per the calculation provided for in this test procedure.\n\n(ii) DOE recognizes that there may be situations that the test procedures do not completely address. In such cases, a manufacturer must obtain a waiver in accordance with the relevant provisions of this part if:\n\n(A) A product contains energy consuming components that operate differently during the prescribed testing than they would during representative average consumer use; and\n\n(B) Applying the prescribed test to that product would evaluate it in a manner that is unrepresentative of its true energy consumption (thereby providing materially inaccurate comparative data).\n\n(c) Dishwashers. (1) The Estimated Annual Operating Cost (EAOC) for dishwashers must be rounded to the nearest dollar per year and is defined as follows:\n\n(i) When cold water (50 \u00b0F) is used,\n\nEAOC = (D e \u00d7 E TLP ) + (D e \u00d7 N \u00d7 (M + M WS + M DO + M CO + E F \u2212(E D /2))).\n\nWhere,\n \n D e = the representative average unit cost of electrical energy, in dollars per kilowatt-hour, as provided by the Secretary,\n \n E TLP = the annual combined low-power mode energy consumption in kilowatt-hours per year and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n \n N = the representative average dishwasher use of 215 cycles per year when EAOC is determined pursuant to appendix C1 to this subpart, and 184 cycles per year when EAOC is determined pursuant to appendix C2 to this subpart,\n \n M = the machine energy consumption per cycle, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n \n M WS = the machine energy consumption per cycle for water softener regeneration, in kilowatt-hours and determined pursuant to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n \n M DO = for water re-use system dishwashers, the machine energy consumption per cycle during a drain out event in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n \n M CO = for water re-use system dishwashers, the machine energy consumption per cycle during a clean out event, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n \n E F = the fan-only mode energy consumption per cycle, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable, and\n \n E D = the drying energy consumption, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable.\n\nWhere,\n\nD e = the representative average unit cost of electrical energy, in dollars per kilowatt-hour, as provided by the Secretary,\n\nE TLP = the annual combined low-power mode energy consumption in kilowatt-hours per year and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n\nN = the representative average dishwasher use of 215 cycles per year when EAOC is determined pursuant to appendix C1 to this subpart, and 184 cycles per year when EAOC is determined pursuant to appendix C2 to this subpart,\n\nM = the machine energy consumption per cycle, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n\nM WS = the machine energy consumption per cycle for water softener regeneration, in kilowatt-hours and determined pursuant to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n\nM DO = for water re-use system dishwashers, the machine energy consumption per cycle during a drain out event in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n\nM CO = for water re-use system dishwashers, the machine energy consumption per cycle during a clean out event, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n\nE F = the fan-only mode energy consumption per cycle, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable, and\n\nE D = the drying energy consumption, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable.\n\n(ii) When electrically heated water (120 \u00b0F or 140 \u00b0F) is used,\n\nEAOC = (D e \u00d7 E TLP ) + (De \u00d7 N \u00d7 (M + M WS + M DO + M CO + E F \u2212(ED/2))) + (De \u00d7 N \u00d7 (W + W WS + W DO + W CO )).\n\nWhere,\n \n D e , E TLP , N, M, M WS , M DO , M CO , E F , and E D , are defined in paragraph (c)(1)(i) of this section,\n \n W = the water energy consumption per cycle, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n \n W WS = the water softener regeneration water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n \n W DO = The drain out event water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable, and\n \n W CO = The clean out event water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable.\n\nWhere,\n\nD e , E TLP , N, M, M WS , M DO , M CO , E F , and E D , are defined in paragraph (c)(1)(i) of this section,\n\nW = the water energy consumption per cycle, in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n\nW WS = the water softener regeneration water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n\nW DO = The drain out event water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable, and\n\nW CO = The clean out event water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable.\n\n(iii) When gas-heated or oil-heated water is used,\n\nEAOC g = (D e \u00d7 E TLP ) + (D e \u00d7 N \u00d7 (M + M WS + M DO +\n\nM CO + EF\u2212(ED/2))) + (D g \u00d7 N \u00d7 (W g + W WSg + W DOg + W COg )).\n\nWhere,\n \n D e , E TLP , N, M, M WS , M DO , M CO , E F , and E D , are defined in paragraph (c)(1)(i) of this section,\n \n D g = the representative average unit cost of gas or oil, as appropriate, in dollars per BTU, as provided by the Secretary,\n \n W g = the water energy consumption per cycle, in Btus and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable.\n \n W WSg = the water softener regeneration energy consumption per cycle in Btu per cycle and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n \n W DOg = the drain out water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable, and\n \n W COg = the clean out water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable.\n\nWhere,\n\nD e , E TLP , N, M, M WS , M DO , M CO , E F , and E D , are defined in paragraph (c)(1)(i) of this section,\n\nD g = the representative average unit cost of gas or oil, as appropriate, in dollars per BTU, as provided by the Secretary,\n\nW g = the water energy consumption per cycle, in Btus and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable.\n\nW WSg = the water softener regeneration energy consumption per cycle in Btu per cycle and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable,\n\nW DOg = the drain out water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable, and\n\nW COg = the clean out water energy consumption per cycle in kilowatt-hours and determined according to section 5 of appendix C1 or appendix C2 to this subpart, as applicable.\n\n(2) The estimated annual energy use, EAEU, expressed in kilowatt-hours per year must be rounded to the nearest kilowatt-hour per year and is defined as follows:\n\nEAEU = (M + M WS + M DO + M CO + E F \u2212(E D /2) + W + W WS + W DO + W CO ) \u00d7 N + E TLP\n\nWhere,\n \n M, M WS , M DO , M CO , E F , E D , E TLP are all defined in paragraph (c)(1)(i) of this section and W, W WS , W DO , W CO are defined in paragraph (c)(1)(ii) of this section.\n\nWhere,\n\nM, M WS , M DO , M CO , E F , E D , E TLP are all defined in paragraph (c)(1)(i) of this section and W, W WS , W DO , W CO are defined in paragraph (c)(1)(ii) of this section.\n\n(3) The sum of the water consumption, V, the water consumption during water softener regeneration, V WS , the water consumption during drain out events for dishwashers equipped with a water re-use system, V DO , and the water consumption during clean out events for dishwashers equipped with a water re-use system, V CO , expressed in gallons per cycle and defined pursuant to section 5 of appendix C1 or appendix C2 to this subpart, as applicable, must be rounded to one decimal place.\n\n(4) Other useful measures of energy consumption for dishwashers are those which the Secretary determines are likely to assist consumers in making purchasing decisions and which are derived from the application of appendix C1 to this subpart or appendix C2 to this subpart, as applicable.\n\n(d) Clothes dryers. (1) The estimated annual energy consumption for clothes dryers, expressed in kilowatt-hours per year, shall be the product of the annual representative average number of clothes dryer cycles as specified in appendix D1 or D2 to this subpart, as appropriate, and the per-cycle combined total energy consumption in kilowatt-hours per cycle, determined according to section 4.6 of appendix D1 or section 4.6 of appendix D2 to this subpart, as appropriate.\n\n(2) The estimated annual operating cost for clothes dryers shall be\u2014\n\n(i) For an electric clothes dryer, the product of the following three factors, with the resulting product then being rounded off to the nearest dollar per year:\n\n(A) The annual representative average number of clothes dryer cycles as specified in appendix D1 or appendix D2 to this subpart, as appropriate;\n\n(B) The per-cycle combined total energy consumption in kilowatt-hours per cycle, determined according to section 4.6 of appendix D1 or section 4.6 of appendix D2 to this subpart, as appropriate; and\n\n(C) The representative average unit cost of electrical energy in dollars per kilowatt-hour as provided by the Secretary; and\n\n(ii) For a gas clothes dryer, the product of the annual representative average number of clothes dryer cycles as specified in appendix D1 or D2 to this subpart, as appropriate, times the sum of the following three factors, with the resulting product then being rounded off to the nearest dollar per year:\n\n(A) The product of the per-cycle gas dryer electric energy consumption in kilowatt-hours per cycle, determined according to section 4.2 of appendix D1 or section 4.2 of appendix D2 to this subpart, as appropriate, times the representative average unit cost of electrical energy in dollars per kilowatt-hour as provided by the Secretary; plus,\n\n(B) The product of the per-cycle gas dryer gas energy consumption, in Btus per cycle, determined according to section 4.3 of appendix D1 or section 4.3 of appendix D2 to this subpart, as appropriate, times the representative average unit cost for natural gas or propane, as appropriate, in dollars per Btu as provided by the Secretary; plus,\n\n(C) The product of the per-cycle standby mode and off mode energy consumption in kilowatt-hours per cycle, determined according to section 4.5 of appendix D1 or section 4.5 of appendix D2 to this subpart, as appropriate, times the representative average unit cost of electrical energy in dollars per kilowatt-hour as provided by the Secretary.\n\n(3) The combined energy factor, expressed in pounds per kilowatt-hour is determined in accordance with section 4.7 of appendix D1 or section 4.7 of appendix D2 to this subpart, as appropriate, the result then being rounded off to the nearest hundredth (0.01).\n\n(4) Other useful measures of energy consumption for clothes dryers shall be those measures of energy consumption for clothes dryers which the Secretary determines are likely to assist consumers in making purchasing decisions and which are derived from the application of appendix D1 or D2 to this subpart, as appropriate.\n\n(e) Water heaters. (1) The estimated annual operating cost is calculated as:\n\n(i) For a gas-fired or oil-fired water heater, the sum of:\n\n(A) The product of the annual gas or oil energy consumption, determined according to section 6.3.11 or 6.4.7 of appendix E to this subpart, times the representative average unit cost of gas or oil, as appropriate, in dollars per Btu as provided by the Secretary; plus\n\n(B) The product of the annual electric energy consumption, determined according to section 6.3.10 or 6.4.6 of appendix E to this subpart, times the representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary. Round the resulting sum to the nearest dollar per year.\n\n(ii) For an electric water heater, the product of the annual energy consumption, determined according to section 6.3.10 or 6.4.6 of appendix E to this subpart, times the representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary. Round the resulting product to the nearest dollar per year.\n\n(2) For an individual unit, the uniform energy factor is rounded to the nearest 0.01 and determined in accordance with section 6.3.8 or section 6.4.4 of appendix E to this subpart.\n\n(f) Room air conditioners. (1) Determine cooling capacity, expressed in British thermal units per hour (Btu/h), as follows:\n\n(i) For a single-speed room air conditioner, determine the cooling capacity in accordance with section 4.1.2 of appendix F of this subpart.\n\n(ii) For a variable-speed room air conditioner, determine the cooling capacity in accordance with section 4.1.2 of appendix F of this subpart for test condition 1 in Table 1 of appendix F of this subpart.\n\n(2) Determine electrical power input, expressed in watts (W) as follows:\n\n(i) For a single-speed room air conditioner, determine the electrical power input in accordance with section 4.1.2 of appendix F of this subpart.\n\n(ii) For a variable-speed room air conditioner, determine the electrical power input in accordance with section 4.1.2 of appendix F of this subpart, for test condition 1 in Table 1 of appendix F of this subpart.\n\n(3) Determine the combined energy efficiency ratio (CEER), expressed in British thermal units per watt-hour (Btu/Wh) and as follows:\n\n(i) For a single-speed room air conditioner, determine the CEER in accordance with section 5.2.2 of appendix F of this subpart.\n\n(ii) For a variable-speed room air conditioner, determine the CEER in accordance with section 5.3.11 of appendix F of this subpart.\n\n(4) Determine the estimated annual operating cost for a room air conditioner, expressed in dollars per year, by multiplying the following two factors and rounding as directed:\n\n(i) For single-speed room air conditioners, the sum of AEC cool and AEC ia/om , determined in accordance with section 5.2.1 and section 5.1, respectively, of appendix F of this subpart. For variable-speed room air conditioners, the sum of AEC wt and AEC ia/om , determined in accordance with section 5.3.4 and section 5.1, respectively, of appendix F of this subpart; and\n\n(ii) A representative average unit cost of electrical energy in dollars per kilowatt-hour as provided by the Secretary. Round the resulting product to the nearest dollar per year.\n\n(g) Unvented home heating equipment. (1) The estimated annual operating cost for primary electric heaters, shall be the product of:\n\n(i) The average annual electric energy consumption in kilowatt-hours per year, determined according to section 3.1 of appendix G of this subpart and\n\n(ii) the representative average unit cost in dollars per kilowatt-hour as provided pursuant to section 323(b)(2) of the Act, the resulting product then being rounded off to the nearest dollar per year.\n\n(2) The estimated regional annual operating cost for primary electric heaters, shall be the product of: (i) The regional annual electric energy consumption in kilowatt-hours per year for primary heaters determined according to section 3.2 of appendix G of this subpart and (ii) the representative average unit cost in dollars per kilowatt-hour as provided pursuant to section 323(b)(2) of the Act, the resulting product then being rounded off to the nearest dollar per year.\n\n(3) The estimated operating cost per million Btu output shall be\u2014\n\n(i) For primary and supplementary electric heaters and unvented gas and oil heaters without an auxiliary electric system, the product of:\n\n(A) One million; and\n\n(B) The representative unit cost in dollars per Btu for natural gas, propane, or oil, as provided pursuant to section 323(b)(2) of the Act as appropriate, or the quotient of the representative unit cost in dollars per kilowatt-hour, as provided pursuant to section 323(b)(2) of the Act, divided by 3,412 Btu per kilowatt hour, the resulting product then being rounded off to the nearest 0.01 dollar per million Btu output; and\n\n(ii) For unvented gas and oil heaters with an auxiliary electric system, the product of: (A) The quotient of one million divided by the rated output in Btu's per hour as determined in 3.4 of appendix G of this subpart; and (B) the sum of: ( 1 ) The product of the maximum fuel input in Btu's per hour as determined in 2.2. of this appendix times the representative unit cost in dollars per Btu for natural gas, propane, or oil, as appropriate, as provided pursuant to section 323(b)(2) of the Act, plus ( 2 ) the product of the maximum auxiliary electric power in kilowatts as determined in 2.1 of appendix G of this subpart times the representative unit cost in dollars per kilowatt-hour as provided pursuant to section 323(b)(2) of the Act, the resulting quantity shall be rounded off to the nearest 0.01 dollar per million Btu output.\n\n(4) The rated output for unvented heaters is the rated output as determined according to either sections 3.3 or 3.4 of appendix G of this subpart, as appropriate, with the result being rounded to the nearest 100 Btu per hour.\n\n(5) Other useful measures of energy consumption for unvented home heating equipment shall be those measures of energy consumption for unvented home heating equipment which the Secretary determines are likely to assist consumers in making purchasing decisions and which are derived from the application of appendix G of this subpart.\n\n(h) Television sets. The power consumption of a television set, expressed in watts, including on and standby modes, shall be determined in accordance with sections 3 and 4 of appendix H of this subpart respectively. The annual energy consumption, expressed in kilowatt-hours per year, shall be determined in accordance with section 4 of appendix H of this subpart.\n\n(i) Cooking products. (1) Determine the standby power for microwave ovens, excluding any microwave oven component of a combined cooking product, according to section 3.2.3 of appendix I to this subpart. Round standby power to the nearest 0.1 watt.\n\n(2)(i) Determine the integrated annual energy consumption of a conventional electric cooking top, including any conventional cooking top component of a combined cooking product, according to section 4.3.1 of appendix I1 to this subpart. Round the result to the nearest 1 kilowatt-hour (kWh) per year.\n\n(ii) Determine the integrated annual energy consumption of a conventional gas cooking top, including any conventional cooking top component of a combined cooking product, according to section 4.3.2 of appendix I1 to this subpart. Round the result to the nearest 1 kilo-British thermal unit (kBtu) per year.\n\n(3) Determine the total annual gas energy consumption of a conventional gas cooking top, including any conventional cooking top component of a combined cooking product, according to section 4.1.2.2.1 of appendix I1 to this subpart. Round the result to the nearest 1 kBtu per year.\n\n(4)(i) Determine the total annual electrical energy consumption of a conventional electric cooking top, including any conventional cooking top component of a combined cooking product, as the integrated annual energy consumption of the conventional electric cooking top, as determined in paragraph (i)(2)(i) of this section.\n\n(ii) Determine the total annual electrical energy consumption of a conventional gas cooking top, including any conventional cooking top component of a combined cooking product, as follows, rounded to the nearest 1 kWh per year:\n\nE TGE = E AGE + E TLP\n\nWhere:\n \n E AGE is the conventional gas cooking top annual active mode electrical energy consumption as defined in section 4.1.2.2.2 of appendix I1 to this subpart, and E TLP is the combined low-power mode energy consumption as defined in section 4.1 of appendix I1 to this subpart.\n\nWhere:\n\nE AGE is the conventional gas cooking top annual active mode electrical energy consumption as defined in section 4.1.2.2.2 of appendix I1 to this subpart, and E TLP is the combined low-power mode energy consumption as defined in section 4.1 of appendix I1 to this subpart.\n\n(5) Determine the estimated annual operating cost corresponding to the energy consumption of a conventional cooking top, including any conventional cooking top component of a combined cooking product, as follows, rounded to the nearest dollar per year:\n\n(E TGE \u00d7 C KWH ) + (E TGG \u00d7 C KBTU )\n\nWhere:\n \n E TGE is the total annual electrical energy consumption for any electric energy usage, in kilowatt-hours (kWh) per year, as determined in accordance with paragraph (i)(4) of this section;\n \n C KWH is the representative average unit cost for electricity, in dollars per kWh, as provided pursuant to section 323(b)(2) of the Act;\n \n E TGG is the total annual gas energy consumption, in kBtu per year, as determined in accordance with paragraph (i)(3) of this section; and\n \n C KBTU is the representative average unit cost for natural gas or propane, in dollars per kBtu, as provided pursuant to section 323(b)(2) of the Act, for conventional gas cooking tops that operate with natural gas or with LP-gas, respectively.\n\nWhere:\n\nE TGE is the total annual electrical energy consumption for any electric energy usage, in kilowatt-hours (kWh) per year, as determined in accordance with paragraph (i)(4) of this section;\n\nC KWH is the representative average unit cost for electricity, in dollars per kWh, as provided pursuant to section 323(b)(2) of the Act;\n\nE TGG is the total annual gas energy consumption, in kBtu per year, as determined in accordance with paragraph (i)(3) of this section; and\n\nC KBTU is the representative average unit cost for natural gas or propane, in dollars per kBtu, as provided pursuant to section 323(b)(2) of the Act, for conventional gas cooking tops that operate with natural gas or with LP-gas, respectively.\n\n(6) Other useful measures of energy consumption for conventional cooking tops shall be the measures of energy consumption that the Secretary determines are likely to assist consumers in making purchasing decisions and that are derived from the application of appendix I1 to this subpart.\n\n(j) Clothes washers. (1) The estimated annual operating cost for automatic and semi-automatic clothes washers must be rounded off to the nearest dollar per year and is defined as follows:\n\n(i) When using appendix J (see the note at the beginning of appendix J),\n\n(A) When electrically heated water is used,\n\n(N \u00d7 (ME T + HE T + E TLP ) \u00d7 C KWH )\n\nWhere:\n \n N = the representative average residential clothes washer use of 234 cycles per year according to appendix J,\n \n ME T = the total weighted per-cycle machine electrical energy consumption, in kilowatt-hours per cycle, determined according to section 4.1.6 of appendix J,\n \n HE T = the total weighted per-cycle hot water energy consumption using an electrical water heater, in kilowatt-hours per cycle, determined according to section 4.1.3 of appendix J,\n \n E TLP = the per-cycle combined low-power mode energy consumption, in kilowatt-hours per cycle, determined according to section 4.6.2 of appendix J, and\n \n C KWH = the representative average unit cost, in dollars per kilowatt-hour, as provided by the Secretary.\n\nWhere:\n\nN = the representative average residential clothes washer use of 234 cycles per year according to appendix J,\n\nME T = the total weighted per-cycle machine electrical energy consumption, in kilowatt-hours per cycle, determined according to section 4.1.6 of appendix J,\n\nHE T = the total weighted per-cycle hot water energy consumption using an electrical water heater, in kilowatt-hours per cycle, determined according to section 4.1.3 of appendix J,\n\nE TLP = the per-cycle combined low-power mode energy consumption, in kilowatt-hours per cycle, determined according to section 4.6.2 of appendix J, and\n\nC KWH = the representative average unit cost, in dollars per kilowatt-hour, as provided by the Secretary.\n\n(B) When gas-heated or oil-heated water is used,\n\n(N \u00d7 (((ME T + E TLP ) \u00d7 C KWH ) + (HE TG \u00d7 C BTU )))\n\nWhere:\n \n N, ME T , E TLP , and C KWH are defined in paragraph (j)(1)(i)(A) of this section,\n \n HE TG = the total per-cycle hot water energy consumption using gas-heated or oil-heated water, in Btu per cycle, determined according to section 4.1.4 of appendix J, and\n \n C BTU = the representative average unit cost, in dollars per Btu for oil or gas, as appropriate, as provided by the Secretary.\n\nWhere:\n\nN, ME T , E TLP , and C KWH are defined in paragraph (j)(1)(i)(A) of this section,\n\nHE TG = the total per-cycle hot water energy consumption using gas-heated or oil-heated water, in Btu per cycle, determined according to section 4.1.4 of appendix J, and\n\nC BTU = the representative average unit cost, in dollars per Btu for oil or gas, as appropriate, as provided by the Secretary.\n\n(ii) When using appendix J2 (see the note at the beginning of appendix J2),\n\n(A) When electrically heated water is used\n\n(N 2 \u00d7 (E TE2 + E TLP2 ) \u00d7 C KWH )\n\nWhere:\n \n N 2 = the representative average residential clothes washer use of 295 cycles per year according to appendix J2,\n \n E TE2 = the total per-cycle energy consumption when electrically heated water is used, in kilowatt-hours per cycle, determined according to section 4.1.7 of appendix J2,\n \n E TLP2 = the per-cycle combined low-power mode energy consumption, in kilowatt-hours per cycle, determined according to section 4.4 of appendix J2, and\n \n C KWH = the representative average unit cost, in dollars per kilowatt-hour, as provided by the Secretary\n\nWhere:\n\nN 2 = the representative average residential clothes washer use of 295 cycles per year according to appendix J2,\n\nE TE2 = the total per-cycle energy consumption when electrically heated water is used, in kilowatt-hours per cycle, determined according to section 4.1.7 of appendix J2,\n\nE TLP2 = the per-cycle combined low-power mode energy consumption, in kilowatt-hours per cycle, determined according to section 4.4 of appendix J2, and\n\nC KWH = the representative average unit cost, in dollars per kilowatt-hour, as provided by the Secretary\n\n(B) When gas-heated or oil-heated water is used,\n\n(N 2 \u00d7 (((ME T2 + E TLP2 ) \u00d7 C KWH ) + (HE TG2 \u00d7 C BTU )))\n\nWhere:\n \n N 2, E TLP2 , and C KWH are defined in paragraph (j)(1)(ii)(A) of this section,\n \n ME T2 = the total weighted per-cycle machine electrical energy consumption, in kilowatt-hours per cycle, determined according to section 4.1.6 of appendix J2,\n \n HE TG2 = the total per-cycle hot water energy consumption using gas-heated or oil-heated water, in Btu per cycle, determined according to section 4.1.4 of appendix J2, and\n \n C BTU = the representative average unit cost, in dollars per Btu for oil or gas, as appropriate, as provided by the Secretary.\n\nWhere:\n\nN 2, E TLP2 , and C KWH are defined in paragraph (j)(1)(ii)(A) of this section,\n\nME T2 = the total weighted per-cycle machine electrical energy consumption, in kilowatt-hours per cycle, determined according to section 4.1.6 of appendix J2,\n\nHE TG2 = the total per-cycle hot water energy consumption using gas-heated or oil-heated water, in Btu per cycle, determined according to section 4.1.4 of appendix J2, and\n\nC BTU = the representative average unit cost, in dollars per Btu for oil or gas, as appropriate, as provided by the Secretary.\n\n(2)(i) The integrated modified energy factor for automatic and semi-automatic clothes washers is determined according to section 4.6 of appendix J2 (when using appendix J2). The result shall be rounded off to the nearest 0.01 cubic foot per kilowatt-hour per cycle.\n\n(ii) The energy efficiency ratio for automatic and semi-automatic clothes washers is determined according to section 4.9 of appendix J (when using appendix J). The result shall be rounded to the nearest 0.01 pound per kilowatt-hour per cycle.\n\n(3) The annual water consumption of a clothes washer must be determined as:\n\n(i) When using appendix J, the product of the representative average-use of 234 cycles per year and the total weighted per-cycle water consumption in gallons per cycle determined according to section 4.2.4 of appendix J.\n\n(ii) When using appendix J2, the product of the representative average-use of 295 cycles per year and the total weighted per-cycle water consumption for all wash cycles, in gallons per cycle, determined according to section 4.2.11 of appendix J2.\n\n(4)(i) The integrated water factor must be determined according to section 4.2.12 of appendix J2, with the result rounded to the nearest 0.1 gallons per cycle per cubic foot.\n\n(ii) The water efficiency ratio for automatic and semi-automatic clothes washers is determined according to section 4.7 of appendix J (when using appendix J). The result shall be rounded to the nearest 0.01 pound per gallon per cycle.\n\n(5) Other useful measures of energy consumption for automatic or semi-automatic clothes washers shall be those measures of energy consumption that the Secretary determines are likely to assist consumers in making purchasing decisions and that are derived from the application of appendix J or appendix J2, as appropriate.\n\n(k)-(l) [Reserved]\n\n(m) Central air conditioners and heat pumps. See the note at the beginning of appendices M1 and M2 to this subpart to determine the appropriate test method. Determine all values discussed in this section using a single appendix.\n\n(1) Determine cooling capacity from the steady-state wet-coil test (A or A full Test), as per instructions in section 2 of appendix M1 or M2 to this subpart, and rounded off to the nearest:\n\n(i) To the nearest 50 Btu/h if cooling capacity is less than 20,000 Btu/h;\n\n(ii) To the nearest 100 Btu/h if cooling capacity is greater than or equal to 20,000 Btu/h but less than 38,000 Btu/h; and\n\n(iii) To the nearest 250 Btu/h if cooling capacity is greater than or equal to 38,000 Btu/h and less than 65,000 Btu/h.\n\n(2) Determine seasonal energy efficiency ratio 2 (SEER2) as described in sections 2 and 5 of appendix M1 to this subpart or seasonal cooling and off-mode rating efficiency (SCORE) as described in sections 2 and 4 of appendix M2 to this subpart, and round off to the nearest 0.025 Btu/W-h.\n\n(3) Determine energy efficiency ratio 2 (EER2) as described in section 2 of appendix M1 or energy efficiency ratio (EER) as described in section 2 of appendix M2 to this subpart and round off to the nearest 0.025 Btu/W-h. EER2 (for appendix M1 to this subpart) or EER (for appendix M2 to this subpart) is the efficiency from the A or A full test, whichever applies.\n\n(4) Determine heating seasonal performance factor 2 (HSPF2) as described in sections 2 and 5 of appendix M1 to this subpart or seasonal heating and off-mode rating efficiency (SHORE) as described in sections 2 and 4 of appendix M2 to this subpart, and round off to the nearest 0.025 Btu/W-h.\n\n(5) Determine P W,OFF, average off-mode power consumption, as described in section 3 of appendix M1 to this subpart, and round off to the nearest 0.5 W. Average off-mode power consumption is not required when testing in accordance with appendix M2 to this subpart.\n\n(6) Determine all other measures of energy efficiency or consumption or other useful measures of performance using appendix M1 or M2 of this subpart.\n\n(n) Furnaces. (1) The estimated annual operating cost for furnaces is the sum of:\n\n(i) The product of the average annual fuel energy consumption, in Btu's per year for gas or oil furnaces or in kilowatt-hours per year for electric furnaces, determined according to section 10.2.2 or 10.3 of appendix N of this subpart, respectively, (for furnaces, excluding low pressure steam or hot water boilers and electric boilers) or section 10.2.2 or 10.3 of appendix EE of this subpart, respectively (for low pressure steam or hot water boilers and electric boilers), and the representative average unit cost in dollars per Btu for gas or oil, or dollars per kilowatt-hour for electric, as appropriate, as provided pursuant to section 323(b)(2) of the Act; plus\n\n(ii) The product of the average annual auxiliary electric energy consumption in kilowatt-hours per year determined according to section 10.2.3 of appendix N of this subpart (for furnaces, excluding low pressure steam or hot water boilers and electric boilers) or section 10.2.3 of appendix EE of this subpart (for low pressure steam or hot water boilers and electric boilers) of this subpart, and the representative average unit cost in dollars per kilowatt-hour as provided pursuant to section 323(b)(2) of the Act.\n\n(iii) Round the resulting sum to the nearest dollar per year.\n\n(2) The annual fuel utilization efficiency (AFUE) for furnaces, expressed in percent, is the ratio of the annual fuel output of useful energy delivered to the heated space to the annual fuel energy input to the furnace.\n\n(i) For gas and oil furnaces, determine AFUE according to section 10.1 of appendix N (for furnaces, excluding low pressure steam or hot water boilers and electric boilers) or section 10.1 of appendix EE (for low pressure steam or hot water boilers and electric boilers) of this subpart, as applicable.\n\n(ii) For electric furnaces, excluding electric boilers, determine AFUE in accordance with section 11.1 of ANSI/ASHRAE 103-1993 (incorporated by reference, see \u00a7 430.3); for electric boilers, determine AFUE in accordance with section 11.1 of ANSI/ASHRAE 103-2017 (incorporated by reference, see \u00a7 430.3).\n\n(iii) Round the AFUE to one-tenth of a percentage point.\n\n(3) The estimated regional annual operating cost for furnaces is calculated as follows:\n\n(i) When using appendix N of this subpart for furnaces excluding low pressure steam or hot water boilers and electric boilers (see the note at the beginning of appendix N of this subpart),\n\n(A) For gas or oil-fueled furnaces,\n\n( E FR \u00d7 C BTU ) + ( E AER \u00d7 C KWH )\n\nWhere:\n \n E FR = the regional annual fuel energy consumption in Btu per year, determined according to section 10.7.1 of appendix N of this subpart;\n \n C BTU = the representative average unit cost in dollars per Btu of gas or oil, as provided pursuant to section 323(b)(2) of the Act;\n \n E AER = the regional annual auxiliary electrical energy consumption in kilowatt-hours per year, determined according to section 10.7.2 of appendix N of this subpart; and\n \n C KWH = the representative average unit cost in dollars per kilowatt-hour of electricity, as provided pursuant to section 323(b)(2) of the Act.\n\nWhere:\n\nE FR = the regional annual fuel energy consumption in Btu per year, determined according to section 10.7.1 of appendix N of this subpart;\n\nC BTU = the representative average unit cost in dollars per Btu of gas or oil, as provided pursuant to section 323(b)(2) of the Act;\n\nE AER = the regional annual auxiliary electrical energy consumption in kilowatt-hours per year, determined according to section 10.7.2 of appendix N of this subpart; and\n\nC KWH = the representative average unit cost in dollars per kilowatt-hour of electricity, as provided pursuant to section 323(b)(2) of the Act.\n\n(B) For electric furnaces,\n\n( E ER \u00d7 C KWH )\n\nWhere:\n \n E ER = the regional annual fuel energy consumption in kilowatt-hours per year, determined according to section 10.7.3 of appendix N of this subpart; and\n \n C KWH is as defined in paragraph (n)(3)(i)(A) of this section.\n\nWhere:\n\nE ER = the regional annual fuel energy consumption in kilowatt-hours per year, determined according to section 10.7.3 of appendix N of this subpart; and\n\nC KWH is as defined in paragraph (n)(3)(i)(A) of this section.\n\n(ii) When using appendix EE of this subpart for low pressure steam or hot water boilers and electric boilers (see the note at the beginning of appendix EE of this subpart),\n\n(A) For gas or oil-fueled boilers,\n\n( E ER \u00d7 C BTU ) + ( E AER \u00d7 C KWH )\n\nWhere:\n \n E FR = the regional annual fuel energy consumption in Btu per year, determined according to section 10.5.1 of appendix EE of this subpart;\n \n C BTU and C KWH are as defined in paragraph (n)(3)(i)(A) of this section; and\n \n E AER = the regional annual auxiliary electrical energy consumption in kilowatt-hours per year, determined according to section 10.5.2 of appendix EE of this subpart.\n\nWhere:\n\nE FR = the regional annual fuel energy consumption in Btu per year, determined according to section 10.5.1 of appendix EE of this subpart;\n\nC BTU and C KWH are as defined in paragraph (n)(3)(i)(A) of this section; and\n\nE AER = the regional annual auxiliary electrical energy consumption in kilowatt-hours per year, determined according to section 10.5.2 of appendix EE of this subpart.\n\n(B) For electric boilers,\n\n( E ER \u00d7 C KWH )\n\nWhere:\n \n E ER = the regional annual fuel energy consumption in kilowatt-hours per year, determined according to section 10.5.3 of appendix EE of this subpart; and\n \n C KWH is as defined in paragraph (n)(3)(i)(A) of this section.\n\nWhere:\n\nE ER = the regional annual fuel energy consumption in kilowatt-hours per year, determined according to section 10.5.3 of appendix EE of this subpart; and\n\nC KWH is as defined in paragraph (n)(3)(i)(A) of this section.\n\n(iii) Round the estimated regional annual operating cost to the nearest dollar per year.\n\n(4) The energy factor for furnaces, expressed in percent, is the ratio of annual fuel output of useful energy delivered to the heated space to the total annual energy input to the furnace determined according to either section 10.6 of appendix N of this subpart (for furnaces, excluding low pressure steam or hot water boilers and electric boilers) or section 10.4 of appendix EE of this subpart (for low pressure steam or hot water boilers and electric boilers), as applicable.\n\n(5) The average standby mode and off mode electrical power consumption for furnaces shall be determined according to section 8.10 of appendix N of this subpart (for furnaces, excluding low pressure steam or hot water boilers and electric boilers) or section 8.9 of appendix EE of this subpart (for low pressure steam or hot water boilers and electric boilers), as applicable. Round the average standby mode and off mode electrical power consumption to the nearest tenth of a watt.\n\n(6) Other useful measures of energy consumption for furnaces shall be those measures of energy consumption which the Secretary determines are likely to assist consumers in making purchasing decisions and which are derived from the application of appendix N of this subpart (for furnaces, excluding low pressure steam or hot water boilers and electric boilers) or appendix EE of this subpart (for low pressure steam or hot water boilers and electric boilers).\n\n(o) Vented home heating equipment. (1) When determining the annual fuel utilization efficiency (AFUE) of vented home heating equipment (see the note at the beginning of appendix O), expressed in percent (%), calculate AFUE in accordance with section 4.1.17 of appendix O of this subpart for vented heaters without either manual controls or thermal stack dampers; in accordance with section 4.2.6 of appendix O of this subpart for vented heaters equipped with manual controls; or in accordance with section 4.3.7 of appendix O of this subpart for vented heaters equipped with thermal stack dampers.\n\n(2) When estimating the annual operating cost for vented home heating equipment, calculate the sum of:\n\n(i) The product of the average annual fuel energy consumption, in Btus per year for natural gas, propane, or oil fueled vented home heating equipment, determined according to section 4.6.2 of appendix O of this subpart, and the representative average unit cost in dollars per Btu for natural gas, propane, or oil, as appropriate, as provided pursuant to section 323(b)(2) of the Act; plus\n\n(ii) The product of the average annual auxiliary electric energy consumption in kilowatt-hours per year determined according to section 4.6.3 of appendix O of this subpart, and the representative average unit cost in dollars per kilowatt-hours as provided pursuant to section 323(b)(2) of the Act. Round the resulting sum to the nearest dollar per year.\n\n(3) When estimating the operating cost per million Btu output for gas or oil vented home heating equipment with an auxiliary electric system, calculate the product of:\n\n(i) The quotient of one million Btu divided by the sum of:\n\n(A) The product of the maximum fuel input in Btus per hour as determined in sections 3.1.1 or 3.1.2 of appendix O of this subpart times the annual fuel utilization efficiency in percent as determined in sections 4.1.17, 4.2.6, or 4.3.7 of this appendix (as appropriate) divided by 100, plus\n\n(B) The product of the maximum electric power in watts as determined in section 3.1.3 of appendix O of this subpart times the quantity 3.412; and\n\n(ii) The sum of:\n\n(A) the product of the maximum fuel input in Btus per hour as determined in sections 3.1.1 or 3.1.2 of this appendix times the representative unit cost in dollars per Btu for natural gas, propane, or oil, as appropriate, as provided pursuant to section 323(b)(2) of the Act; plus\n\n(B) the product of the maximum auxiliary electric power in kilowatts as determined in section 3.1.3 of appendix O of this subpart times the representative unit cost in dollars per kilowatt-hour as provided pursuant to section 323(b)(2) of the Act. Round the resulting quantity to the nearest 0.01 dollar per million Btu output.\n\n(p) Pool heaters. (1) Determine the thermal efficiency (E t ) of a pool heater expressed as a percent (%) in accordance with section 5.1 of appendix P to this subpart.\n\n(2) Determine the integrated thermal efficiency (TE I ) of a pool heater expressed as a percent (%) in accordance with section 5.4 of appendix P to this subpart.\n\n(3) When estimating the annual operating cost of pool heaters, calculate the sum of:\n\n(i) The product of the average annual fossil fuel energy consumption, in Btus per year, determined according to section 5.2 of appendix P to this subpart, and the representative average unit cost in dollars per Btu for natural gas or oil, as appropriate, as provided pursuant to section 323(b)(2) of the Act; plus\n\n(ii) The product of the average annual electrical energy consumption in kilowatt-hours per year determined according to section 5.3 of appendix P to this subpart and converted to kilowatt-hours using a conversion factor of 3412 Btus = 1 kilowatt-hour, and the representative average unit cost in dollars per kilowatt-hours as provided pursuant to section 323(b)(2) of the Act. Round the resulting sum to the nearest dollar per year.\n\n(q) Fluorescent lamp ballasts. (1) Calculate ballast luminous efficiency (BLE) using appendix Q to this subpart.\n\n(2) Calculate power factor using appendix Q to this subpart.\n\n(r) General service fluorescent lamps, general service incandescent lamps, and incandescent reflector lamps. Measure initial lumen output, initial input power, initial lamp efficacy, color rendering index (CRI), correlated color temperature (CCT), and time to failure of GSFLs, IRLs, and GSILs, as applicable, in accordance with appendix R to this subpart.\n\n(s) Faucets. Measure the water use for lavatory faucets, lavatory replacement aerators, kitchen faucets, and kitchen replacement aerators, in gallons or liters per minute (gpm or L/min), in accordance to section 2.1 of appendix S of this subpart. Measure the water use for metering faucets, in gallons or liters per cycle (gal/cycle or L/cycle), in accordance to section 2.1 of appendix S of this subpart.\n\n(t) Showerheads. Measure the water use for showerheads, in gallons or liters per minute (gpm or L/min), in accordance to section 2.2 of appendix S of this subpart.\n\n(u) Water closets. Measure the water use for water closets, expressed in gallons or liters per flush (gpf or Lpf), in accordance with section 3(a) of appendix T to this subpart.\n\n(v) Urinals. Measure the water use for urinals, expressed in gallons or liters per flush (gpf or Lpf), in accordance with section 3(b) of appendix T to this subpart.\n\n(w) Ceiling fans. Measure the following attributes of a single ceiling fan in accordance with appendix U to this subpart: airflow; power consumption; ceiling fan efficiency, as applicable; ceiling fan energy index (CFEI), as applicable; standby power, as applicable; distance between the ceiling and lowest point of fan blades; blade span; blade edge thickness; and blade revolutions per minute (RPM).\n\n(x) Ceiling fan light kits.\n\n(1) For each ceiling fan light kit that requires compliance with the January 21, 2020 energy conservation standards:\n\n(i) For a ceiling fan light kit packaged with compact fluorescent lamps, measure lamp efficacy, lumen maintenance at 1,000 hours, lumen maintenance at 40 percent of lifetime, rapid cycle stress test, and time to failure in accordance with paragraph (y) of this section for each lamp basic model.\n\n(ii) For a ceiling fan light kit packaged with general service fluorescent lamps, measure lamp efficacy in accordance with paragraph (r) of this section for each lamp basic model.\n\n(iii) For a ceiling fan light kit packaged with incandescent lamps, measure lamp efficacy in accordance with paragraph (r) of this section for each lamp basic model.\n\n(iv) For a ceiling fan light kit packaged with integrated LED lamps, measure lamp efficacy in accordance with paragraph (ee) of this section for each lamp basic model.\n\n(v) For a ceiling fan light kit packaged with other fluorescent lamps (not compact fluorescent lamps or general service fluorescent lamps), packaged with consumer-replaceable SSL (not integrated LED lamps), packaged with non-consumer-replaceable SSL, or packaged with other SSL lamps that have an ANSI standard base (not integrated LED lamps), measure efficacy in accordance with section 3 of appendix V of this subpart for each lamp basic model, consumer-replaceable SSL basic model, or non-consumer-replaceable SSL basic model.\n\n(2) [Reserved]\n\n(y) Compact fluorescent lamps. (1) Measure initial lumen output, input power, initial lamp efficacy, lumen maintenance at 1,000 hours, lumen maintenance at 40 percent of lifetime of a compact fluorescent lamp (as defined in 10 CFR 430.2), color rendering index (CRI), correlated color temperature (CCT), power factor, start time, standby mode energy consumption, and time to failure in accordance with appendix W of this subpart. Express time to failure in hours.\n\n(2) Conduct the rapid cycle stress test in accordance with section 3.3 of appendix W of this subpart.\n\n(z) Dehumidifiers. (1) Determine the capacity, expressed in pints/day, according to section 5.2 of appendix X1 to this subpart.\n\n(2) Determine the integrated energy factor, expressed in L/kWh, according to section 5.4 of appendix X1 to this subpart.\n\n(3) Determine the case volume, expressed in cubic feet, for whole-home dehumidifiers in accordance with section 5.7 of appendix X1 of this subpart.\n\n(aa) Battery Chargers. (1) For battery chargers subject to compliance with the relevant standard at \u00a7 430.32(z) as that standard appeared in the January 1, 2022, edition of 10 CFR parts 200-499:\n\n(i) Measure the maintenance mode power, standby power, off mode power, battery discharge energy, 24-hour energy consumption and measured duration of the charge and maintenance mode test for a battery charger other than uninterruptible power supplies in accordance with appendix Y to this subpart;\n\n(ii) Calculate the unit energy consumption of a battery charger other than uninterruptible power supplies in accordance with appendix Y to this subpart;\n\n(iii) Calculate the average load adjusted efficiency of an uninterruptible power supply in accordance with appendix Y to this subpart.\n\n(2) For a battery charger subject to compliance with any amended relevant standard provided in \u00a7 430.32 that is published after September 8, 2022:\n\n(i) Measure active mode energy, maintenance mode power, no-battery mode power, off mode power and battery discharge energy for a battery charger other than uninterruptible power supplies in accordance with appendix Y1 to this subpart.\n\n(ii) Calculate the standby power of a battery charger other than uninterruptible power supplies in accordance with appendix Y1, to this subpart.\n\n(iii) Calculate the average load adjusted efficiency of an uninterruptible power supply in accordance with appendix Y1 to this subpart.\n\n(bb) External Power Supplies. The energy consumption of an external power supply, including active-mode efficiency expressed as a percentage and the no-load, off, and standby mode energy consumption levels expressed in watts, shall be measured in accordance with appendix Z of this subpart.\n\n(cc) Furnace Fans. The energy consumption of a single unit of a furnace fan basic model expressed in watts per 1000 cubic feet per minute (cfm) to the nearest integer shall be calculated in accordance with Appendix AA of this subpart.\n\n(dd) Portable air conditioners.\n\n(1) When using appendix CC to this subpart, measure the seasonally adjusted cooling capacity (\u201cSACC\u201d) in British thermal units per hour (Btu/h), and the combined energy efficiency ratio, in British thermal units per watt-hour (Btu/Wh) in accordance with sections 5.2 and 5.4 of appendix CC to this subpart, respectively. When using appendix CC1 to this subpart, measure the SACC in Btu/h, and the combined energy efficiency ratio, in Btu/Wh in accordance with sections 5.2 and 5.4, respectively, of appendix CC1 to this subpart.\n\n(2) When using appendix CC to this subpart, determine the estimated annual operating cost for portable air conditioners, in dollars per year and rounded to the nearest whole number, by multiplying a representative average unit cost of electrical energy in dollars per kilowatt-hour as provided by the Secretary by the total annual energy consumption (\u201cAEC\u201d), determined as follows:\n\n(i) For dual-duct single-speed portable air conditioners, the sum of AEC DD_95 multiplied by 0.2, AEC DD_83 multiplied by 0.8, and AEC T as measured in accordance with section 5.3 of appendix CC to this subpart.\n\n(ii) For single-duct single-speed portable air conditioners, the sum of AEC SD and AEC T as measured in accordance with section 5.3 of appendix CC to this subpart.\n\n(iii) For dual-duct variable-speed portable air conditioners the overall sum of\n\n(A) The sum of AEC DD_95_Full and AEC ia/om , multiplied by 0.2, and\n\n(B) The sum of AEC DD_83_Low and AEC ia/om , multiplied by 0.8, as measured in accordance with section 5.3 of appendix CC to this subpart.\n\n(iv) For single-duct variable-speed portable air conditioners, the overall sum of\n\n(A) The sum of AEC SD_Full and AEC ia/om , multiplied by 0.2, and\n\n(B) The sum of AEC SD_Low and AEC ia/om , multiplied by 0.8, as measured in accordance with section 5.3 of appendix CC to this subpart.\n\n(3) When using appendix CC1 to this subpart, determine the estimated annual operating cost for portable air conditioners, in dollars per year and rounded to the nearest whole number, by multiplying a representative average unit cost of electrical energy in dollars per kilowatt-hour as provided by the Secretary by the total AEC. The total AEC is the sum of AEC 95 , AEC 83 , AEC oc , and AEC ia , as measured in accordance with section 5.3 of appendix CC1 to this subpart.\n\n(ee) Integrated light-emitting diode lamp. (1) The input power of an integrated light-emitting diode lamp must be measured in accordance with section 3 of appendix BB of this subpart.\n\n(2) The lumen output of an integrated light-emitting diode lamp must be measured in accordance with section 3 of appendix BB of this subpart.\n\n(3) The lamp efficacy of an integrated light-emitting diode lamp must be calculated in accordance with section 3 of appendix BB of this subpart.\n\n(4) The correlated color temperature of an integrated light-emitting diode lamp must be measured in accordance with section 3 of appendix BB of this subpart.\n\n(5) The color rendering index of an integrated light-emitting diode lamp must be measured in accordance with section 3 of appendix BB of this subpart.\n\n(6) The power factor of an integrated light-emitting diode lamp must be measured in accordance with section 3 of appendix BB of this subpart.\n\n(7) The time to failure of an integrated light-emitting diode lamp must be measured in accordance with section 4 of appendix BB of this subpart.\n\n(8) The standby mode power must be measured in accordance with section 5 of appendix BB of this subpart.\n\n(ff) Coolers and combination cooler refrigeration products. (1) The estimated annual operating cost for models without an anti-sweat heater switch shall be the product of the following three factors, with the resulting product then being rounded to the nearest dollar per year:\n\n(i) The representative average-use cycle of 365 cycles per year;\n\n(ii) The average per-cycle energy consumption for the standard cycle in kilowatt-hours per cycle, determined according to appendix A of this subpart; and\n\n(iii) The representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary.\n\n(2) The estimated annual operating cost for models with an anti-sweat heater switch shall be the product of the following three factors, with the resulting product then being rounded to the nearest dollar per year:\n\n(i) The representative average-use cycle of 365 cycles per year;\n\n(ii) Half the sum of the average per-cycle energy consumption for the standard cycle and the average per-cycle energy consumption for a test cycle type with the anti-sweat heater switch in the position set at the factory just before shipping, each in kilowatt-hours per cycle, determined according to appendix A of this subpart; and\n\n(iii) The representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary.\n\n(3) The estimated annual operating cost for any other specified cycle type shall be the product of the following three factors, with the resulting product then being rounded to the nearest dollar per year:\n\n(i) The representative average-use cycle of 365 cycles per year;\n\n(ii) The average per-cycle energy consumption for the specified cycle type, determined according to appendix A of this subpart; and\n\n(iii) The representative average unit cost of electricity in dollars per kilowatt-hour as provided by the Secretary.\n\n(4) The energy factor, expressed in cubic feet per kilowatt-hour per cycle, shall be:\n\n(i) For models without an anti-sweat heater switch, the quotient of:\n\n(A) The adjusted total volume in cubic feet, determined according to appendix A of this subpart, divided by\u2014\n\n(B) The average per-cycle energy consumption for the standard cycle in kilowatt-hours per cycle, determined according to appendix A of this subpart, the resulting quotient then being rounded to the second decimal place; and\n\n(ii) For models having an anti-sweat heater switch, the quotient of:\n\n(A) The adjusted total volume in cubic feet, determined according to appendix A of this subpart, divided by\u2014\n\n(B) Half the sum of the average per-cycle energy consumption for the standard cycle and the average per-cycle energy consumption for a test cycle type with the anti-sweat heater switch in the position set at the factory just before shipping, each in kilowatt-hours per cycle, determined according to appendix A of this subpart, the resulting quotient then being rounded to the second decimal place.\n\n(5) The annual energy use, expressed in kilowatt-hours per year and rounded to the nearest kilowatt-hour per year, shall be determined according to appendix A of this subpart.\n\n(6) Other useful measures of energy consumption shall be those measures of energy consumption that the Secretary determines are likely to assist consumers in making purchasing decisions which are derived from the application of appendix A of this subpart.\n\n(7) The following principles of interpretation shall be applied to the test procedure. The intent of the energy test procedure is to simulate operation in typical room conditions (72 \u00b0F (22.2 \u00b0C)) with door openings by testing at 90 \u00b0F (32.2 \u00b0C) ambient temperature without door openings. Except for operating characteristics that are affected by ambient temperature (for example, compressor percent run time), the unit, when tested under this test procedure, shall operate in a manner equivalent to the unit's operation while in typical room conditions.\n\n(i) The energy used by the unit shall be calculated when a calculation is provided by the test procedure. Energy consuming components that operate in typical room conditions (including as a result of door openings, or a function of humidity), and that are not excluded by this test procedure, shall operate in an equivalent manner during energy testing under this test procedure, or be accounted for by all calculations as provided for in the test procedure. Examples:\n\n(A) Energy saving features that are designed to operate when there are no door openings for long periods of time shall not be functional during the energy test.\n\n(B) The defrost heater shall neither function nor turn off differently during the energy test than it would when in typical room conditions. Also, the product shall not recover differently during the defrost recovery period than it would in typical room conditions.\n\n(C) Electric heaters that would normally operate at typical room conditions with door openings shall also operate during the energy test.\n\n(D) Energy used during adaptive defrost shall continue to be measured and adjusted per the calculation provided for in this test procedure.\n\n(ii) DOE recognizes that there may be situations that the test procedures do not completely address. In such cases, a manufacturer must obtain a waiver in accordance with the relevant provisions of this part if:\n\n(A) A product contains energy consuming components that operate differently during the prescribed testing than they would during representative average consumer use; and\n\n(B) Applying the prescribed test to that product would evaluate it in a manner that is unrepresentative of its true energy consumption (thereby providing materially inaccurate comparative data).\n\n(8) For non-compressor models, \u201ccompressor\u201d and \u201ccompressor cycles\u201d as used in appendix A of this subpart shall be interpreted to mean \u201crefrigeration system\u201d and \u201crefrigeration system cycles,\u201d respectively.\n\n(gg) General Service Lamps. (1) For general service incandescent lamps, use paragraph (r) of this section.\n\n(2) For compact fluorescent lamps, use paragraph (y) of this section.\n\n(3) For integrated LED lamps, use paragraph (ee) of this section.\n\n(4) For other incandescent lamps, measure initial light output, input power, lamp efficacy, power factor, and standby mode power in accordance with appendix DD of this subpart.\n\n(5) For other fluorescent lamps, measure initial light output, input power, lamp efficacy, power factor, and standby mode power in accordance with appendix DD of this subpart.\n\n(6) For OLED and non-integrated LED lamps, measure initial light output, input power, lamp efficacy, power factor, and standby mode power in accordance with appendix DD of this subpart.\n\n(hh) Air cleaners. (1) The pollen clean air delivery rate (CADR), smoke CADR, and dust CADR, expressed in cubic feet per minute (cfm), for conventional room air cleaners shall be measured in accordance with section 5 of appendix FF of this subpart.\n\n(2) The PM 2.5 CADR, expressed in cfm, for conventional room air cleaners, shall be measured in accordance with section 5 of appendix FF of this subpart.\n\n(3) The active mode and standby mode power consumption, expressed in watts, shall be measured in accordance with sections 5 and 6, respectively, of appendix FF of this subpart.\n\n(4) The annual energy consumption, expressed in kilowatt-hours per year, and the integrated energy factor, expressed in CADR per watts (CADR/W), for conventional room air cleaners, shall be measured in accordance with section 7 of appendix FF of this subpart.\n\n(5) The estimated annual operating cost for conventional room air cleaners, expressed in dollars per year, shall be determined by multiplying the following two factors:\n\n(i) The annual energy consumption as calculated in accordance with section 7 of appendix FF of this subpart, and\n\n(ii) A representative average unit cost of electrical energy in dollars per kilowatt-hour as provided by the Secretary, the resulting product then being rounded off to the nearest dollar per year.\n\n(ii) Portable electric spas. Measure the standby loss in watts and the fill volume in gallons of a portable electric spa in accordance with appendix GG to this subpart."], ["10:10:3.0.1.4.18.2.11.3", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "B", "Subpart B\u2014Test Procedures", "", "\u00a7 430.24 [Reserved]", "DOE", "", "", "", ""], ["10:10:3.0.1.4.18.2.11.4", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "B", "Subpart B\u2014Test Procedures", "", "\u00a7 430.25 Laboratory Accreditation Program.", "DOE", "", "", "[81 FR 72504, Oct. 20, 2016]", "The testing for general service fluorescent lamps, general service incandescent lamps (with the exception of lifetime testing), general service lamps (with the exception of applicable lifetime testing), incandescent reflector lamps, compact fluorescent lamps, and fluorescent lamp ballasts, and integrated light-emitting diode lamps must be conducted by test laboratories accredited by an Accreditation Body that is a signatory member to the International Laboratory Accreditation Cooperation (ILAC) Mutual Recognition Arrangement (MRA). A manufacturer's or importer's own laboratory, if accredited, may conduct the applicable testing."], ["10:10:3.0.1.4.18.2.11.5", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "B", "Subpart B\u2014Test Procedures", "", "\u00a7 430.27 Petitions for waiver and interim waiver.", "DOE", "", "", "[79 FR 26599, May 9, 2014, as amended at 85 FR 79820, Dec. 11, 2020; 86 FR 70959, Dec. 14, 2021]", "(a) General information. This section provides a means for seeking waivers of the test procedure requirements of this subpart for basic models that meet the requirements of paragraph (a)(1) of this section. In granting a waiver or interim waiver, DOE will not change the energy use or efficiency metric that the manufacturer must use to certify compliance with the applicable energy conservation standard and to make representations about the energy use or efficiency of the covered product. The granting of a waiver or interim waiver by DOE does not exempt such basic models from any other regulatory requirement contained in this part or the certification and compliance requirements of 10 CFR part 429 and specifies an alternative method for testing the basic models addressed in the waiver.\n\n(1) Any interested person may submit a petition to waive for a particular basic model any requirements of \u00a7 430.23 or of any appendix to this subpart, upon the grounds that the basic model contains one or more design characteristics which either prevent testing of the basic model according to the prescribed test procedures or cause the prescribed test procedures to evaluate the basic model in a manner so unrepresentative of its true energy and/or water consumption characteristics as to provide materially inaccurate comparative data.\n\n(2) Manufacturers of basic model(s) subject to a waiver or interim waiver are responsible for complying with the other requirements of this subpart and with the requirements of 10 CFR part 429 regardless of the person that originally submitted the petition for waiver and/or interim waiver. The filing of a petition for waiver and/or interim waiver shall not constitute grounds for noncompliance with any requirements of this subpart.\n\n(3) All correspondence regarding waivers and interim waivers must be submitted to DOE either electronically to AS__Waiver__Requests@ee.doe.gov (preferred method of transmittal) or by mail to U.S. Department of Energy, Building Technologies Program, Test Procedure Waiver, 1000 Independence Avenue SW., Mailstop EE-5B, Washington, DC 20585-0121.\n\n(b) Petition content and publication. (1) Each petition for interim waiver and waiver must:\n\n(i) Identify the particular basic model(s) for which a waiver is requested, each brand name under which the identified basic model(s) will be distributed in commerce, the design characteristic(s) constituting the grounds for the petition, and the specific requirements sought to be waived, and must discuss in detail the need for the requested waiver;\n\n(ii) Identify manufacturers of all other basic models distributed in commerce in the United States and known to the petitioner to incorporate design characteristic(s) similar to those found in the basic model that is the subject of the petition;\n\n(iii) Include any alternate test procedures known to the petitioner to evaluate the performance of the product type in a manner representative of the energy and/or water consumption characteristics of the basic model; and\n\n(iv) Be signed by the petitioner or an authorized representative. In accordance with the provisions set forth in 10 CFR 1004.11, any request for confidential treatment of any information contained in a petition or in supporting documentation must be accompanied by a copy of the petition, application or supporting documentation from which the information claimed to be confidential has been deleted. DOE will publish in the Federal Register the petition and supporting documents from which confidential information, as determined by DOE, has been deleted in accordance with 10 CFR 1004.11 and will solicit comments, data and information with respect to the determination of the petition.\n\n(2) In addition to the requirements in paragraph (b)(1) of this section, each petition for interim waiver must reference the related petition for waiver, demonstrate likely success of the petition for waiver, and address what economic hardship and/or competitive disadvantage is likely to result absent a favorable determination on the petition for interim waiver.\n\n(c) Notification to other manufacturers. (1) Each petitioner for interim waiver must, upon publication of a grant of an interim waiver in the Federal Register, notify in writing all known manufacturers of domestically marketed basic models of the same product class (as specified in 10 CFR 430.32) and of other product classes known to the petitioner to use the technology or have the characteristic at issue in the waiver. The notice must include a statement that DOE has published the interim waiver and petition for waiver in the Federal Register and the date the petition for waiver was published. The notice must also include a statement that DOE will receive and consider timely written comments on the petition for waiver. Within five working days, each petitioner must file with DOE a statement certifying the names and addresses of each person to whom a notice of the petition for waiver has been sent.\n\n(2) If a petitioner does not request an interim waiver and notification has not been provided pursuant to paragraph (c)(1) of this section, each petitioner, after filing a petition for waiver with DOE, and after the petition for waiver has been published in the Federal Register, must, within five working days of such publication, notify in writing all known manufacturers of domestically marketed units of the same product class (as listed in 10 CFR 430.32) and of other product classes known to the petitioner to use the technology or have the characteristic at issue in the waiver. The notice must include a statement that DOE has published the petition in the Federal Register and the date the petition for waiver was published. Within five working days of the publication of the petition in the Federal Register, each petitioner must file with DOE a statement certifying the names and addresses of each person to whom a notice of the petition for waiver has been sent.\n\n(d) Public comment and rebuttal. (1) Any person submitting written comments to DOE with respect to an interim waiver must also send a copy of the comments to the petitioner by the deadline specified in the notice.\n\n(2) Any person submitting written comments to DOE with respect to a petition for waiver must also send a copy of such comments to the petitioner.\n\n(3) A petitioner may, within 10 working days of the close of the comment period specified in the Federal Register, submit a rebuttal statement to DOE. A petitioner may rebut more than one comment in a single rebuttal statement.\n\n(e) Provisions specific to interim waivers. (1) DOE will post a petition for interim waiver on its website within 5 business days of receipt of a complete petition. DOE will make best efforts to review a petition for interim waiver within 90 business days of receipt of a complete petition.\n\n(2) A petition for interim waiver that does not meet the content requirements of paragraph (b) of this section will be considered incomplete. DOE will notify the petitioner of an incomplete petition via email.\n\n(3) DOE will grant an interim waiver from the test procedure requirements if it appears likely that the petition for waiver will be granted and/or if DOE determines that it would be desirable for public policy reasons to grant immediate relief pending a determination on the petition for waiver. Notice of DOE's determination on the petition for interim waiver will be published in the Federal Register .\n\n(f) Provisions specific to waivers \u2014(1) Disposition of application. The petitioner shall be notified in writing as soon as practicable of the disposition of each petition for waiver. DOE shall issue a decision on the petition as soon as is practicable following receipt and review of the Petition for Waiver and other applicable documents, including, but not limited to, comments and rebuttal statements.\n\n(2) Criteria for granting. DOE will grant a waiver from the test procedure requirements if DOE determines either that the basic model(s) for which the waiver was requested contains a design characteristic that prevents testing of the basic model according to the prescribed test procedures, or that the prescribed test procedures evaluate the basic model in a manner so unrepresentative of its true energy or water consumption characteristics as to provide materially inaccurate comparative data. Waivers may be granted subject to conditions, which may include adherence to alternate test procedures specified by DOE. DOE will consult with the Federal Trade Commission prior to granting any waiver, and will promptly publish in the Federal Register notice of each waiver granted or denied, and any limiting conditions of each waiver granted.\n\n(g) Extension to additional basic models. A petitioner may request that DOE extend the scope of a waiver or an interim waiver to include additional basic models employing the same technology as the basic model(s) set forth in the original petition. The petition for extension must identify the particular basic model(s) for which a waiver extension is requested, each brand name under which the identified basic model(s) will be distributed in commerce, and documentation supporting the claim that the additional basic models employ the same technology as the basic model(s) set forth in the original petition. DOE will publish any such extension in the Federal Register.\n\n(h) Duration. (1) Within one year of issuance of an interim waiver, DOE will either:\n\n(i) Publish in the Federal Register a determination on the petition for waiver; or\n\n(ii) Publish in the Federal Register a new or amended test procedure that addresses the issues presented in the waiver.\n\n(2) When DOE publishes a decision and order on a petition for waiver in the Federal Register pursuant to paragraph (f) of this section, the interim waiver will terminate upon the data specified in the decision and order, in accordance with paragraph (i) of this section.\n\n(3) When DOE amends the test procedure to address the issues presented in a waiver, the waiver or interim waiver will automatically terminate on the date on which use of that test procedure is required to demonstrate compliance.\n\n(4) When DOE publishes a decision and order in the Federal Register to modify a waiver pursuant to paragraph (k) of this section, the existing waiver will terminate 180 days after the publication date of the decision and order.\n\n(i) Compliance certification and representations. (1) If the interim waiver test procedure methodology is different than the decision and order test procedure methodology, certification reports to DOE required under 10 CFR 429.12 and any representations must be based on either of the two methodologies until 180 days after the publication date of the decision and order. Thereafter, certification reports and any representations must be based on the decision and order test procedure methodology, unless otherwise specified by DOE. Once a manufacturer uses the decision and order test procedure methodology in a certification report or any representation, all subsequent certification reports and any representations must be made using the decision and order test procedure methodology while the waiver is valid.\n\n(2) When DOE publishes a new or amended test procedure, certification reports to DOE required under 10 CFR 429.12 and any representations must be based on the testing methodology of an applicable waiver or interim waiver, or the new or amended test procedure until the date on which use of such test procedure is required to demonstrate compliance, unless otherwise specified by DOE in the test procedure final rule. Thereafter, certification reports and any representations must be based on the test procedure final rule methodology. Once a manufacturer uses the test procedure final rule methodology in a certification report or any representation, all subsequent certification reports and any representations must be made using the test procedure final rule methodology.\n\n(3) If DOE publishes a decision and order modifying an existing waiver, certification reports to DOE required under 10 CFR 429.12 and any representations must be based on either of the two methodologies until 180 days after the publication date of the decision and order modifying the waiver. Thereafter, certification reports and any representations must be based on the modified test procedure methodology unless otherwise specified by DOE. Once a manufacturer uses the modified test procedure methodology in a certification report or any representation, all subsequent certification reports and any representations must be made using the modified test procedure methodology while the modified waiver is valid.\n\n(j) Petition for waiver required of other manufactures. Any manufacturer of a basic model employing a technology or characteristic for which a waiver was granted for another basic model and that results in the need for a waiver (as specified by DOE in a published decision and order in the Federal Register ) must petition for and be granted a waiver for that basic model. Manufacturers may also submit a request for interim waiver pursuant to the requirements of this section.\n\n(k) Rescission or modification. (1) DOE may rescind or modify a waiver or interim waiver at any time upon DOE's determination that the factual basis underlying the petition for waiver or interim waiver is incorrect, upon a determination that the results from the alternate test procedure are unrepresentative of the basic model(s)' true energy consumption characteristics, or for other appropriate reason. Waivers and interim waivers are conditioned upon the validity of statements, representations, and documents provided by the requestor; any evidence that the original grant of a waiver or interim waiver was based upon inaccurate information will weigh against continuation of the waiver. DOE's decision will specify the basis for its determination and, in the case of a modification, will also specify the change to the authorized test procedure.\n\n(2) A person may request that DOE rescind or modify a waiver or interim waiver issued to that person if the person discovers an error in the information provided to DOE as part of its petition, determines that the waiver is no longer needed, or for other appropriate reasons. In a request for rescission, the requestor must provide a statement explaining why it is requesting rescission. In a request for modification, the requestor must explain the need for modification to the authorized test procedure and detail the modifications needed and the corresponding impact on measured energy consumption.\n\n(3) DOE will publish a proposed rescission or modification (DOE-initiated or at the request of the original requestor) in the Federal Register for public comment. A requestor may, within 10 working days of the close of the comment period specified in the proposed rescission or modification published in the Federal Register, submit a rebuttal statement to DOE. A requestor may rebut more than one comment in a single rebuttal statement.\n\n(4) DOE will publish its decision in the Federal Register. DOE's determination will be based on relevant information contained in the record and any comments received.\n\n(5) After the effective date of a rescission, any basic model(s) previously subject to a waiver must be tested and certified using the applicable DOE test procedure in 10 CFR part 430.\n\n(l) Revision of regulation. As soon as practicable after the granting of any waiver, DOE will publish in the Federal Register a notice of proposed rulemaking to amend its regulations so as to eliminate any need for the continuation of such waiver. As soon thereafter as practicable, DOE will publish in the Federal Register a final rule.\n\n(m) To exhaust administrative remedies, any person aggrieved by an action under this section must file an appeal with the DOE's Office of Hearings and Appeals as provided in 10 CFR part 1003, subpart C."], ["10:10:3.0.1.4.18.3.11.1", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "C", "Subpart C\u2014Energy and Water Conservation Standards", "", "\u00a7 430.31 Purpose and scope.", "DOE", "", "", "[63 FR 13317, Mar. 18, 1998, as amended at 78 FR 62993, Oct. 23, 2013]", "This subpart contains energy conservation standards and water conservation standards (in the case of faucets, showerheads, water closets, and urinals) for classes of covered products that are required to be administered by the Department of Energy pursuant to the Energy Conservation Program for Consumer Products Other Than Automobiles under the Energy Policy and Conservation Act, as amended (42 U.S.C. 6291 et seq. )."], ["10:10:3.0.1.4.18.3.11.2", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "C", "Subpart C\u2014Energy and Water Conservation Standards", "", "\u00a7 430.32 Energy and water conservation standards and their compliance dates.", "DOE", "", "", "[54 FR 6077, Feb. 7, 1989]", "The energy and water (in the case of faucets, showerheads, water closets, and urinals) conservation standards for the covered product classes are:\n\n(a) Refrigerators/refrigerator-freezers/freezers. These standards do not apply to refrigerators and refrigerator-freezers with total refrigerated volume exceeding 39 cubic feet (1104 liters) or freezers with total refrigerated volume exceeding 30 cubic feet (850 liters). The energy standards as determined by the equations of the following table(s) shall be rounded off to the nearest kWh per year. If the equation calculation is halfway between the nearest two kWh per year values, the standard shall be rounded up to the higher of these values.\n\n(1) The following standards apply to products manufactured on or after September 15, 2014, and before the 2029/2030 compliance dates depending on product class (see paragraphs (a)(2) and (a)(3) of this section).\n\nTable 1 to Paragraph (a)(1)\n\nAV = Total adjusted volume, expressed in ft\n 3 , as determined in appendices A and B to subpart B of this part.\n\nav = Total adjusted volume, expressed in Liters.\n\n(2) The following standards apply to products manufactured on or after January 31, 2029.\n\nTable 2 to Paragraph ( a )( 2 )\n\nAV = Total adjusted volume, expressed in ft\n 3 , as determined in appendices A and B to subpart B of this part.\n\nav = Total adjusted volume, expressed in Liters.\n\nI = 1 for a product with an automatic icemaker and = 0 for a product without an automatic icemaker. Door Coefficients ( e.g., K3ABI) are as defined in the following table.\n\nTable 3 to Paragraph ( a )( 2 )\n\nNotes:\n\n1 N d is the number of external doors.\n\n2 The maximum N d values are 2 for K12, 3 for K9BI, and 5 for all other K values.\n\n(3) The following standards apply to products manufactured on or after January 31, 2030.\n\nTable 4 to Paragraph ( a )( 3 )\n\nAV = Total adjusted volume, expressed in ft\n 3 , as determined in appendices A and B to subpart B of this part.\n\nav = Total adjusted volume, expressed in Liters.\n\nI = 1 for a product with an automatic icemaker and = 0 for a product without an automatic icemaker. Door Coefficients ( e.g., K3A) are as defined in the following table.\n\nTable 5 to Paragraph ( a )( 3 )\n\nNotes:\n\n1 N d is the number of external doors.\n\n2 The maximum N d values are 2 for K2, and 5 for all other K values.\n\n(b) Room air conditioners. (1) The following standards remain in effect from June 1, 2014, until May 26, 2026:\n\nTable 6 to Paragraph ( b )(1)\n\n1 The certified cooling capacity is determined by the manufacturer in accordance with 10 CFR 429.15(a)(3).\n\n(2) The following standards apply to products manufactured starting May 26, 2026:\n\nTable 7 to Paragraph ( b )(2)\n\n1 The certified cooling capacity is determined by the manufacturer in accordance with 10 CFR 429.15(a)(3).\n\n(c) Central air conditioners and heat pumps. The energy conservation standards defined in terms of the heating seasonal performance factor are based on Region IV, the minimum standardized design heating requirement, and the provisions of 10 CFR 429.16.\n\n(1) Central air conditioners and central air conditioning heat pumps manufactured on or after January 1, 2015, and before January 1, 2023, must have Seasonal Energy Efficiency Ratio and Heating Seasonal Performance Factor not less than:\n\n(2) In addition to meeting the applicable requirements in paragraph (c)(1) of this section, products in product class (i) of paragraph (c)(1) of this section ( i.e., split-systems\u2014air conditioners) that are installed on or after January 1, 2015, and before January 1, 2023, in the States of Alabama, Arkansas, Delaware, Florida, Georgia, Hawaii, Kentucky, Louisiana, Maryland, Mississippi, North Carolina, Oklahoma, South Carolina, Tennessee, Texas, or Virginia, or in the District of Columbia, must have a Seasonal Energy Efficiency Ratio (SEER) of 14 or higher. Any outdoor unit model that has a certified combination with a rating below 14 SEER cannot be installed in these States. The least efficient combination of each basic model must comply with this standard.\n\n(3)(i) In addition to meeting the applicable requirements in paragraph (c)(1) of this section, products in product classes (i) and (iii) of paragraph (c)(1) of this section ( i.e., split systems\u2014air conditioners and single-package units\u2014air conditioners) that are installed on or after January 1, 2015, and before January 1, 2023, in the States of Arizona, California, Nevada, or New Mexico must have a Seasonal Energy Efficiency Ratio (SEER) of 14 or higher and have an Energy Efficiency Ratio (EER) (at a standard rating of 95 \u00b0F dry bulb outdoor temperature) not less than the following:\n\n(ii) Any outdoor unit model that has a certified combination with a rating below 14 SEER or the applicable EER cannot be installed in this region. The least-efficient combination of each basic model must comply with this standard.\n\n(4) Each basic model of single-package central air conditioners and central air conditioning heat pumps and each individual combination of split-system central air conditioners and central air conditioning heat pumps manufactured on or after January 1, 2015, shall have an average off mode electrical power consumption not more than the following:\n\n(5) Central air conditioners and central air conditioning heat pumps manufactured on or after January 1, 2023, must have a Seasonal Energy Efficiency Ratio 2 and a Heating Seasonal Performance Factor 2 not less than:\n\n(6)(i) In addition to meeting the applicable requirements in paragraph (c)(5) of this section, products in product classes (i) and (iii) of paragraph (c)(5) of this section ( i.e., split systems\u2014air conditioners and single-package units\u2014air conditioners) that are installed on or after January 1, 2023, in the southeast or southwest must have a Seasonal Energy Efficiency Ratio 2 and a Energy Efficiency Ratio 2 not less than:\n\n* \u201cSoutheast\u201d includes the States of Alabama, Arkansas, Delaware, Florida, Georgia, Hawaii, Kentucky, Louisiana, Maryland, Mississippi, North Carolina, Oklahoma, Puerto Rico, South Carolina, Tennessee, Texas, Virginia, the District of Columbia, and the U.S. Territories.\n\n** \u201cSouthwest\u201d includes the States of Arizona, California, Nevada, and New Mexico.\n\n*** EER refers to the energy efficiency ratio at a standard rating of 95 \u00b0F dry bulb outdoor temperature.\n\n\u2020 The 11.7 EER2 standard applies to products with a certified SEER2 less than 15.2. The 9.8 EER2 standard applies to products with a certified SEER2 greater than or equal to 15.2.\n\n\u2020\u2020 The 11.2 EER2 standard applies to products with a certified SEER2 less than 15.2. The 9.8 EER2 standard applies to products with a certified SEER2 greater than or equal to 15.2.\n\n(ii) Any model of outdoor unit that has a certified combination with a rating below the applicable standard level(s) for a region cannot be installed in that region. The least-efficient combination of each basic model, which for single-split-system air conditioner (AC) with single-stage or two-stage compressor (including space-constrained and small-duct high velocity systems (SDHV)) must be a coil-only combination, must comply with the applicable standard. See 10 CFR 429.16(a)(1) and (a)(4)(i).\n\n(d) Water Heaters. (1) The uniform energy factor of water heaters manufactured before May 6, 2029, shall not be less than the following:\n\n1 V r is the rated storage volume (in gallons), as determined pursuant to \u00a7 429.17 of this chapter.\n\n(2) The uniform energy factor of water heaters manufactured on or after May 6, 2029, shall not be less than the following:\n\nTable 14 to Paragraph (d)(2)\n\n* V eff is the Effective Storage Volume (in gallons), as determined pursuant to \u00a7 429.17 of this chapter.\n\n(3) The provisions of paragraph (d) of this section are separate and severable from one another. Should a court of competent jurisdiction hold any provision(s) of paragraph (d) of this section to be stayed or invalid, such action shall not affect any other provision of paragraph (d) of this section.\n\n(e) Furnaces and boilers \u2014(1) Furnaces. (i) The Annual Fuel Utilization Efficiency (AFUE) of residential furnaces shall not be less than the following for non-weatherized gas furnaces manufactured before November 19, 2015, non-weatherized oil furnaces manufactured before May 1, 2013, and weatherized furnaces manufactured before January 1, 2015:\n\n1 Annual Fuel Utilization Efficiency, as determined in \u00a7 430.23(n)(2) of this part.\n\n(ii) The AFUE for non-weatherized gas furnaces (not including mobile home gas furnaces) manufactured on or after November 19, 2015, but before December 18, 2028; mobile home gas furnaces manufactured on or after November 19, 2015, but before December 18, 2028; non-weatherized oil-fired furnaces (not including mobile home furnaces) manufactured on or after May 1, 2013, mobile home oil-fired furnaces manufactured on or after September 1, 1990; weatherized gas-fired furnaces manufactured on or after January 1, 2015; weatherized oil-fired furnaces manufactured on or after January 1, 1992; and electric furnaces manufactured on or after January 1, 1992; shall not be less than the following:\n\n1 Annual Fuel Utilization Efficiency, as determined in \u00a7 430.23(n)(2).\n\n(iii) The AFUE for non-weatherized gas (not including mobile home gas furnaces) manufactured on and after December 18, 2028; and mobile home gas furnaces manufactured on and after December 18, 2028, shall not be less than the following:\n\n1 Annual Fuel Utilization Efficiency, as determined in \u00a7 430.23(n)(2).\n\n(iv) Furnaces manufactured on or after May 1, 2013, shall have an electrical standby mode power consumption (P W,SB ) and electrical off mode power consumption (P W,OFF ) not more than the following:\n\n(2) Boilers. (i) The AFUE of residential boilers manufactured before September 1, 2012, shall not be less than the following:\n\n1 Annual Fuel Utilization Efficiency, as determined in \u00a7 430.22(n)(2) of this part.\n\n(ii) Except as provided in paragraph (e)(2)(iv) of this section, the AFUE of residential boilers, manufactured on or after September 1, 2012, and before January 15, 2021, shall not be less than the following and must comply with the design requirements as follows:\n\n1 Annual Fuel Utilization Efficiency, as determined in \u00a7 430.22(n)(2) of this part.\n\n(iii)(A) Except as provided in paragraph (e)(2)(v) of this section, the AFUE of residential boilers, manufactured on and after January 15, 2021, shall not be less than the following and must comply with the design requirements as follows:\n\n1 Annual Fuel Utilization Efficiency, as determined in \u00a7 430.23(n)(2) of this part.\n\n(B) Except as provided in paragraph (e)(2)(v) of this section, the standby mode power consumption (P W,SB ) and off mode power consumption (P W,OFF ) of residential boilers, manufactured on and after January 15, 2021, shall not be more than the following:\n\n(iv) Automatic means for adjusting water temperature. (A) The automatic means for adjusting water temperature as required under paragraph (e)(2)(ii) of this section must automatically adjust the temperature of the water supplied by the boiler to ensure that an incremental change in inferred heat load produces a corresponding incremental change in the temperature of water supplied.\n\n(B) For boilers that fire at a single input rate, the automatic means for adjusting water temperature requirement may be satisfied by providing an automatic means that allows the burner or heating element to fire only when the means has determined that the inferred heat load cannot be met by the residual heat of the water in the system.\n\n(C) When there is no inferred heat load with respect to a hot water boiler, the automatic means described in this paragraph shall limit the temperature of the water in the boiler to not more than 140 degrees Fahrenheit.\n\n(D) A boiler for which an automatic means for adjusting water temperature is required shall be operable only when the automatic means is installed.\n\n(v) A boiler that is manufactured to operate without any need for electricity or any electric connection, electric gauges, electric pumps, electric wires, or electric devices is not required to meet the AFUE or design requirements applicable to the boiler requirements of paragraph (e)(2)(ii) of this section, but must meet the requirements of paragraph (e)(2)(i) of this section, as applicable.\n\n(f) Dishwashers. (1) All dishwashers manufactured on or after May 30, 2013, shall meet the following standard\u2014\n\n(i) Standard size dishwashers shall not exceed 307 kwh/year and 5.0 gallons per cycle. Standard size dishwashers have a capacity equal to or greater than eight place settings plus six serving pieces as specified in AHAM DW-1-2020 (incorporated by reference, see \u00a7 430.3) using the test load specified in section 2.3 of appendix C1 or section 2.4 of appendix C2 to subpart B of this part, as applicable.\n\n(ii) Compact size dishwashers shall not exceed 222 kwh/year and 3.5 gallons per cycle. Compact size dishwashers have a capacity less than eight place settings plus six serving pieces as specified in AHAM DW-1-2020 (incorporated by reference, see \u00a7 430.3) using the test load specified in section 2.3 of appendix C1 or section 2.4 of appendix C2 to subpart B of this part, as applicable.\n\n(2) All dishwashers manufactured on or after April 23, 2027, shall not exceed the following standard\u2014\n\n1 The energy conservation standards in this table do not apply to standard-size dishwashers with a cycle time for the normal cycle of 60 minutes or less.\n\n2 Place settings are as specified in AHAM DW-1-2020 (incorporated by reference, see \u00a7 430.3) and the test load is as specified in section 2.4 of appendix C2 to subpart B of this part.\n\n(3) The provisions of paragraph (f)(2) of this section are separate and severable from one another. Should a court of competent jurisdiction hold any provision(s) of this section to be stayed or invalid, such action shall not affect any other provision of this section.\n\n(g) Clothes washers. (1) Clothes washers manufactured on or after January 1, 2018, shall have an Integrated Modified Energy Factor no less than, and an Integrated Water Factor no greater than:\n\n(2) Clothes washers manufactured on or after March 1, 2028:\n\n(i) Shall have an Energy Efficiency Ratio and a Water Efficiency Ratio no less than:\n\n1 The energy conservation standards in this table do not apply to top-loading standard-size clothes washers with an average cycle time less than 30 minutes.\n\n2 The energy conservation standards in this table do not apply to front-loading clothes washers with a capacity greater than or equal to 1.6 ft\n 3 and less than 3.0 ft\n 3 with an average cycle time of less than 45 minutes.\n\n3 The energy conservation standards in this table do not apply to front-loading standard-size clothes washers with an average cycle time less than 45 minutes.\n\n(ii) The provisions of this paragraph (g)(2) are separate and severable from one another. Should a court of competent jurisdiction hold any provision(s) of this section to be stayed or invalid, such action shall not affect any other provisions of this section.\n\n(h) Clothes dryers. (1) Gas clothes dryers manufactured after January 1, 1988 shall not be equipped with a constant burning pilot.\n\n(2) Clothes dryers manufactured on or after May 14, 1994 and before January 1, 2015, shall have an energy factor no less than:\n\n(3) Clothes dryers manufactured on or after January 1, 2015, shall have a combined energy factor no less than:\n\n(4) Clothes dryers manufactured on or after March 1, 2028, shall have a combined energy factor, determined in accordance with appendix D2 of this subpart, no less than:\n\n* The energy conservation standards in this product class do not apply to Vented Electric, Standard clothes dryers with a cycle time of less than 30 minutes, when tested according to appendix D2 in subpart B of this part.\n\n** The energy conservation standards in this product class do not apply to Vented Gas, Standard clothes dryers with a cycle time of less than 30 minutes, when tested according to appendix D2 in subpart B of this part.\n\n(i) Direct heating equipment. (1) Vented home heating equipment manufactured on or after January 1, 1990 and before April 16, 2013, shall have an annual fuel utilization efficiency no less than:\n\n(2) Vented home heating equipment manufactured on or after April 16, 2013, shall have an annual fuel utilization efficiency no less than:\n\n(j) Cooking Products (1) Conventional cooking tops. (i) Gas cooking tops, other than gas portable indoor conventional cooking tops, manufactured on or after April 9, 2012, and before January 31, 2028, shall not be equipped with a constant burning pilot light.\n\n(ii) Gas portable indoor conventional cooking tops, manufactured on or after April 9, 2012, shall not be equipped with a constant burning pilot light.\n\n(iii) Conventional cooking tops, other than portable indoor conventional cooking tops, manufactured on or after January 31, 2028, shall have an integrated annual energy consumption (IAEC), excluding any downdraft venting system energy consumption, no greater than:\n\n(2) Conventional ovens. The control system of a conventional oven shall:\n\n(i) Not be equipped with a constant burning pilot light, for gas ovens manufactured on or after April 9, 2012; and\n\n(ii) Not be equipped with a linear power supply, for electric and gas ovens manufactured on or after January 31, 2028.\n\n(3) Microwave ovens.\n\n(i) Microwave-only ovens and countertop convection microwave ovens manufactured on or after June 17, 2016, and before June 22, 2026, shall have an average standby power not more than 1.0 watt. Built-in and over-the-range convection microwave ovens manufactured on or after June 17, 2016, and before June 22, 2026, shall have an average standby power not more than 2.2 watts.\n\n(ii) Microwave-only ovens and countertop convection microwave ovens manufactured on or after June 22, 2026, shall have an average standby power not more than 0.6 watts. Built-in and over-the-range convection microwave ovens manufactured on or after June 22, 2026, shall have an average standby power not more than 1.0 watt.\n\n(k) Pool heaters. (1) Gas-fired pool heaters manufactured on and after April 16, 2013 and before May 30, 2028, shall have a thermal efficiency not less than 82%.\n\n(2) Gas-fired pool heaters and electric pool heaters manufactured on and after May 30, 2028, shall have an integrated thermal efficiency not less than the following:\n\nwhere Q IN is the certified input capacity of a gas-fired pool heater basic model, in Btu/h, and PE is the certified active electrical power of an electric pool heater, in Btu/h.\n\n(l) Television sets. [Reserved]\n\n(m) Fluorescent lamp ballasts \u2014(1) Standards for fluorescent lamp ballasts (other than dimming ballasts). Except as provided in paragraphs (m)(2) and (3) of this section, each fluorescent lamp ballast manufactured on or after November 14, 2014,\n\n(i) Designed and marketed\u2014\n\n(A) To operate at nominal input voltages at or between 120 and 277 volts;\n\n(B) To operate with an input current frequency of 60 Hertz; and\n\n(C) For use in connection with fluorescent lamps (as defined in \u00a7 430.2)\n\n(ii) Must have\u2014\n\n(A) A power factor of:\n\n( 1 ) 0.9 or greater for ballasts that are not residential ballasts; or\n\n( 2 ) 0.5 or greater for residential ballasts; and\n\n(B) A ballast luminous efficiency not less than the following:\n\n(2) Standards for certain dimming ballasts. Except as provided in paragraph (m)(3) of this section, each dimming ballast manufactured on or after November 14, 2014; designed and marketed to operate one F34T12, two F34T12, two F96T12/ES, or two F96T12HO/ES lamps; and\n\n(i) Designed and marketed\u2014\n\n(A) To operate at nominal input voltages at or between 120 and 277 volts;\n\n(B) To operate with an input current frequency of 60 Hertz; and\n\n(C) For use in connection with fluorescent lamps (as defined in \u00a7 430.2)\n\n(ii) Must have\u2014\n\n(A) A power factor of:\n\n( 1 ) 0.9 or greater for ballasts that are not residential ballasts; or\n\n( 2 ) 0.5 or greater for residential ballasts; and\n\n(B) A ballast luminous efficiency not less than the following:\n\n(3) Exemptions. The power factor and ballast luminous efficiency standards described in paragraph (m)(1)(ii) and (m)(2)(ii) of this section do not apply to:\n\n(i) A dimming ballast designed and marketed to operate exclusively lamp types other than one F34T12, two F34T12, two F96T12/ES, or two F96T12HO/ES lamps;\n\n(ii) A low frequency ballast that is designed and marketed to operate T8 diameter lamps; is designed and marketed for use in electromagnetic-interference-sensitive-environments only; and is shipped by the manufacturer in packages containing 10 or fewer ballasts; or\n\n(iii) A programmed start ballast that operates 4-foot medium bipin T8 lamps and delivers on average less than 140 milliamperes to each lamp.\n\n(4) For the purposes of this paragraph (m), the definitions found in appendix Q of subpart B of this part apply.\n\n(n) General service fluorescent lamps and incandescent reflector lamps. (1) Each of the following general service fluorescent lamps manufactured after the effective dates specified in the table must meet or exceed the following color rendering index standards:\n\n* Nominal lamp watts means the wattage at which a fluorescent lamp is designed to operate. 42 U.S.C. 6291(29)(H)\n\n(2) The standards described in paragraph (n)(1) of this section do not apply to:\n\n(i) Any 4-foot medium bipin lamp or 2-foot U-shaped lamp with a rated wattage less than 28 watts;\n\n(ii) Any 8-foot high output lamp not defined in ANSI C78.81-2010 (incorporated by reference; see \u00a7 430.3) or related supplements, or not 0.800 nominal amperes; or\n\n(iii) Any 8-foot slimline lamp not defined in ANSI C78.3 (incorporated by reference; see \u00a7 430.3).\n\n(3) Each of the following general service fluorescent lamps manufactured on or after January 26, 2018, must meet or exceed the following lamp efficacy standards shown in the table:\n\nFor paragraphs (n)(3)(i) through (vi), rated wattage is defined with respect to fluorescent lamps and general service fluorescent lamps in \u00a7 430.2.\n\n(4) Subject to the sales prohibition in paragraph (dd) of this section, each of the following incandescent reflector lamps manufactured after July 14, 2012, must meet or exceed the lamp efficacy standards shown in the table:\n\nP is equal to the rated wattage, in watts. Rated wattage is defined with respect to incandescent reflector lamps in \u00a7 430.2.\n\nStandard Spectrum means any incandescent reflector lamp that does not meet the definition of modified spectrum in \u00a7 430.2.\n\n(5) The standards specified in this section do not apply to the following types of incandescent reflector lamps:\n\n(i) Lamps rated at 50 watts or less that are ER30, BR30, BR40, or ER40 lamps;\n\n(ii) Lamps rated at 65 watts that are BR30, BR40, or ER40 lamps; or\n\n(iii) R20 incandescent reflector lamps rated 45 watts or less.\n\n(o) Faucets. The maximum water use allowed for any of the following faucets manufactured after January 1, 1994, when measured at a flowing water pressure of 60 pounds per square inch (414 kilopascals), shall be as follows:\n\nNote:\n\n1 Sprayheads with independently-controlled orifices and manual controls.\n\nThe maximum flow rate of each orifice that manually turns on or off shall not exceed the maximum flow rate for a lavatory faucet.\n\n2 Sprayheads with collectively controlled orifices and manual controls.\n\nThe maximum flow rate of a sprayhead that manually turns on or off shall be the product of (a) the maximum flow rate for a lavatory faucet and (b) the number of component lavatories (rim space of the lavatory in inches (millimeters) divided by 20 inches (508 millimeters)).\n\n3 Sprayheads with independently controlled orifices and metered controls.\n\nThe maximum flow rate of each orifice that delivers a pre-set volume of water before gradually shutting itself off shall not exceed the maximum flow rate for a metering faucet.\n\n4 Sprayheads with collectively-controlled orifices and metered controls.\n\nThe maximum flow rate of a sprayhead that delivers a pre-set volume of water before gradually shutting itself off shall be the product of (a) the maximum flow rate for a metering faucet and (b) the number of component lavatories (rim space of the lavatory in inches (millimeters) divided by 20 inches (508 millimeters)).\n\n(p) Showerheads. The maximum water use allowed for any showerheads manufactured after January 1, 1994, shall be 2.5 gallons per minute (9.5 liters per minute) when measured at a flowing pressure of 80 pounds per square inch gage (552 kilopascals). When used as a component of any such showerhead, the flow-restricting insert shall be mechanically retained at the point of manufacture such that a force of 8.0 pounds force (36 Newtons) or more is required to remove the flow-restricting insert, except that this requirement shall not apply to showerheads for which removal of the flow-restricting insert would cause water to leak significantly from areas other than the spray face.\n\n(q) Water closets. The maximum water use allowed in gallons per flush for any of the following water closets is as follows:\n\n(r) Urinals. The maximum water use allowed for any urinals manufactured after January 1, 1994, shall be 1.0 gallons per flush (3.8 liters per flush). The maximum water use allowed for a trough-type urinal shall be the product of:\n\n(1) The maximum flow rate for a urinal and\n\n(2) The length of the trough-type urinal in inches (millimeter) divided by 16 inches (406 millimeters).\n\n(s) Ceiling fans and ceiling fan light kits. (1) All ceiling fans manufactured on or after January 1, 2007, shall have the following features:\n\n(i) Fan speed controls separate from any lighting controls;\n\n(ii) Adjustable speed controls (either more than 1 speed or variable speed);\n\n(iii) The capability of reversible fan action, except for\u2014\n\n(A) Fans sold for industrial applications;\n\n(B) Fans sold for outdoor applications; and\n\n(C) Cases in which safety standards would be violated by the use of the reversible mode.\n\n(2)(i) Ceiling fans manufactured on or after January 21, 2020, shall meet the requirements shows in the table:\n\n1 D is the ceiling fan's blade span, in inches, as determined in Appendix U of this part.\n\n(ii) Large-diameter ceiling fans, as defined in appendix U to subpart B of this part, manufactured on or after January 21, 2020, shall have a CFEI greater than or equal to -\n\n(A) 1.00 at high speed; and\n\n(B) 1.31 at 40 percent speed or the nearest speed that is not less than 40 percent speed.\n\n(iii) The provisions in this appendix apply to ceiling fans except:\n\n(A) Ceiling fans where the plane of rotation of a ceiling fan's blades is not less than or equal to 45 degrees from horizontal, or cannot be adjusted based on the manufacturer's specifications to be less than or equal to 45 degrees from horizontal;\n\n(B) Centrifugal ceiling fans, as defined in Appendix U of this part;\n\n(C) Belt-driven ceiling fans, as defined in Appendix U of this part;\n\n(D) Oscillating ceiling fans, as defined in Appendix U of this part; and\n\n(E) Highly-decorative ceiling fans, as defined in Appendix U of this part.\n\n(3) Ceiling fan light kits manufactured on or after January 1, 2007, and prior to January 21, 2020, with medium screw base sockets must be packaged with medium screw base lamps to fill all sockets. These medium screw base lamps must\u2014\n\n(i) Be compact fluorescent lamps that meet or exceed the following requirements or be as described in paragraph (s)(3)(ii) of this section:\n\n1 Use rated wattage to determine the appropriate minimum efficacy requirements in this table.\n\n2 Calculate efficacy using measured wattage, rather than rated wattage, and measured lumens to determine product compliance. Wattage and lumen values indicated on products or packaging may not be used in calculation.\n\n(ii) Be light sources other than compact fluorescent lamps that have lumens per watt performance at least equivalent to comparably configured compact fluorescent lamps meeting the energy conservation standards in paragraph (s)(3)(i) of this section.\n\n(4) Ceiling fan light kits manufactured on or after January 1, 2007, and prior January 21, 2020, with pin-based sockets for fluorescent lamps must use an electronic ballast and be packaged with lamps to fill all sockets. These lamp ballast platforms must meet the following requirements:\n\n(5) Ceiling fan light kits manufactured on or after January 1, 2009, and prior to January 21, 2020, with socket types other than those covered in paragraph (s)(3) or (4) of this section, including candelabra screw base sockets, must be packaged with lamps to fill all sockets and must not be capable of operating with lamps that total more than 190 watts.\n\n(6) Ceiling fan light kits manufactured on or after January 21, 2020 must be packaged with lamps to fill all sockets, and each basic model of lamp packaged with the basic model of CFLK, each basic model of consumer-replaceable SSL packaged with the basic model of CFLK, and each basic model of non-consumer-replaceable SSL in the CFLK basic model shall meet the requirements shown in paragraphs (s)(6)(i) and (ii) of this section:\n\n1 Use the lumen output for each basic model of lamp packaged with the basic model of CFLK, each basic model of consumer-replaceable SSL packaged with the basic model of CFLK, or each basic model of non-consumer-replaceable SSL in the CFLK basic model to determine the applicable standard.\n\n(i) Ceiling fan light kits with medium screw base sockets manufactured on or after January 21, 2020 and packaged with compact fluorescent lamps must include lamps that also meet the following requirements:\n\n(ii) Ceiling fan light kits with pin based sockets for fluorescent lamps, manufactured on or after January 21, 2020, must also use an electronic ballast.\n\n(t) Torchieres. A torchiere manufactured on or after January 1, 2006 shall:\n\n(1) Consume not more than 190 watts of power; and\n\n(2) Not be capable of operating with lamps that total more than 190 watts.\n\n(u) [Reserved]\n\n(v) Dehumidifiers. (1) Dehumidifiers manufactured on or after October 1, 2012, shall have an energy factor that meets or exceeds the following values:\n\n(2) Dehumidifiers manufactured on or after June 13, 2019, shall have an integrated energy factor that meets or exceeds the following values:\n\n(w) External power supplies. (1)(i) Except as provided in paragraphs (w)(2) and (5) of this section, all class A external power supplies manufactured on or after July 1, 2008, shall meet the following standards:\n\n(ii) Except as provided in paragraphs (w)(5), (w)(6), and (w)(7) of this section, all direct operation external power supplies manufactured on or after February 10, 2016, shall meet the following standards:\n\n(iii) Except as provided in paragraphs (w)(5), (w)(6), and (w)(7) of this section, all external power supplies manufactured on or after February 10, 2016, shall meet the following standards:\n\n(2) A basic model of external power supply is not subject to the energy conservation standards of paragraph (w)(1)(ii) of this section if the external power supply\u2014\n\n(i) Is manufactured during the period beginning on February 10, 2016, and ending on February 10, 2020;\n\n(ii) Is marked in accordance with the External Power Supply International Efficiency Marking Protocol, as in effect on February 10, 2016;\n\n(iii) Meets, where applicable, the standards under paragraph (w)(1)(i) of this section, and has been certified to the Secretary as meeting those standards; and\n\n(iv) Is made available by the manufacturer only as a service part or a spare part for an end-use product that\u2014\n\n(A) Constitutes the primary load; and\n\n(B) Was manufactured before February 10, 2016.\n\n(3) The standards described in paragraph (w)(1) of this section shall not constitute an energy conservation standard for the separate end-use product to which the external power supply is connected.\n\n(4) Any external power supply subject to the standards in paragraph (w)(1) of this section shall be clearly and permanently marked in accordance with the International Efficiency Marking Protocol for External Power Supplies (incorporated by reference; see \u00a7 430.3), published by the U.S. Department of Energy.\n\n(5) Non-application of no-load mode requirements. The no-load mode energy efficiency standards established in paragraph (w)(1) of this section shall not apply to an external power supply that\u2014\n\n(i) Is an AC-to-AC external power supply;\n\n(ii) Has a nameplate output of 20 watts or more;\n\n(iii) Is certified to the Secretary as being designed to be connected to a security or life safety alarm or surveillance system component; and\n\n(iv) On establishment within the External Power Supply International Efficiency Marking Protocol, as referenced in the \u201cEnergy Star Program Requirements for Single Voltage External Ac-Dc and Ac-Ac Power Supplies\u201d (incorporated by reference, see \u00a7 430.3), published by the Environmental Protection Agency, of a distinguishing mark for products described in this clause, is permanently marked with the distinguishing mark.\n\n(6) An external power supply shall not be subject to the standards in paragraph (w)(1) of this section if it is a device that requires Federal Food and Drug Administration (FDA) listing and approval as a medical device in accordance with section 513 of the Federal Food, Drug, and Cosmetic Act (21 U.S.C. 360(c)).\n\n(7) A direct operation, AC-DC external power supply with nameplate output voltage less than 3 volts and nameplate output current greater than or equal to 1,000 milliamps that charges the battery of a product that is fully or primarily motor operated shall not be subject to the standards in paragraph (w)(1)(ii) of this section.\n\n(x) Intermediate base incandescent lamps and candelabra base incandescent lamps. (1) Subject to the sales prohibition in paragraph (dd) of this section, each candelabra base incandescent lamp shall not exceed 60 rated watts.\n\n(2) Subject to the sales prohibition in paragraph (dd) of this section, each intermediate base incandescent lamp shall not exceed 40 rated watts.\n\n(y) Residential furnace fans. Residential furnace fans incorporated in the products listed in Table 1 of this paragraph and manufactured on and after July 3, 2019, shall have a fan energy rating (FER) value that meets or is less than the following values:\n\nTable 1\u2014Energy Conservation Standards for Covered Residential Furnace Fans*\n\n* Furnace fans incorporated into hydronic air handlers, SDHV modular blowers, SDHV electric furnaces, and CAC/HP indoor units are not subject to the standards listed in this table.\n\n** Q Max is the airflow, in cfm, at the maximum airflow-control setting measured using the final DOE test procedure at 10 CFR part 430, subpart B, appendix AA.\n\n(z) Battery chargers. (1) Battery chargers manufactured on or after June 13, 2018, must have a unit energy consumption (UEC) less than or equal to the prescribed \u201cMaximum UEC\u201d standard when using the equations for the appropriate product class and corresponding rated battery energy as shown in the following table:\n\n* Inductive connection and designed for use in a wet environment ( e.g. electric toothbrushes).\n\n** E batt = Rated battery energy as determined in 10 CFR part 429.39(a).\n\n(2) A battery charger shall not be subject to the standards in paragraph (z)(1) of this section if it is a device that requires Federal Food and Drug Administration (FDA) listing and approval as a life-sustaining or life-supporting device in accordance with section 513 of the Federal Food, Drug, and Cosmetic Act (21 U.S.C. 360(c)).\n\n(3) All uninterruptible power supplies (UPS) manufactured on and after January 10, 2022, that utilize a NEMA 1-15P or 5-15P input plug and have an AC output shall have an average load adjusted efficiency that meets or exceeds the values shown in the table in this paragraph (z)(3) based on the rated output power (P rated ) of the UPS.\n\n(aa) Miscellaneous refrigeration products. The energy standards as determined by the equations of the following table(s) shall be rounded off to the nearest kWh per year. If the equation calculation is halfway between the nearest two kWh per year values, the standard shall be rounded up to the higher of these values.\n\n(1) Coolers. (i) Coolers manufactured on or after October 28, 2019, and before January 31, 2029, shall have an Annual Energy Use (AEU) no more than:\n\nNote: AV = Total adjusted volume, expressed in ft\n 3 , as determined in appendix A to subpart B of this part.\n\n(ii) Coolers manufactured on or after January 31, 2029, shall have an Annual Energy Use (AEU) no more than:\n\nNote: AV = Total adjusted volume, expressed in ft\n 3 , as determined in appendix A to subpart B of this part.\n\n(2) Combination cooler refrigeration products. (i) Combination cooler refrigeration products manufactured on or after October 28, 2019, and before January 31, 2029, shall have an Annual Energy Use (AEU) no more than:\n\nNote: AV = Total adjusted volume, expressed in ft\n 3 , as determined in appendix A to subpart B of this part.\n\n(ii) Combination cooler refrigeration products manufactured on or after January 31, 2029, shall have an Annual Energy Use (AEU) no more than:\n\nAV = Total adjusted volume, expressed in ft\n 3 , as determined in appendix A to subpart B of this part.\n\nI = 1 for a product with an automatic icemaker and = 0 for a product without an automatic icemaker.\n\n(bb) Rough service lamps and vibration service lamps. (1) Subject to the sales prohibition in paragraph (dd) of this section, rough service lamps manufactured on or after January 25, 2018 must:\n\n(i) Have a shatter-proof coating or equivalent technology that is compliant with NSF/ANSI 51 (incorporated by reference; see \u00a7 430.3) and is designed to contain the glass if the glass envelope of the lamp is broken and to provide effective containment over the life of the lamp;\n\n(ii) Have a rated wattage not greater than 40 watts; and\n\n(iii) Be sold at retail only in a package containing one lamp.\n\n(2) Subject to the sales prohibition in paragraph (dd) of this section, vibration service lamps manufactured on or after January 25, 2018 must:\n\n(i) Have a rated wattage no greater than 40 watts; and\n\n(ii) Be sold at retail only in a package containing one lamp.\n\n(cc) Portable air conditioners. Single-duct portable air conditioners and dual-duct portable air conditioners manufactured on or after January 10, 2025 must have a combined energy efficiency ratio (CEER) in Btu/Wh no less than:\n\nSACC: For single-speed portable air conditioners, SACC is seasonally adjusted cooling capacity in Btu/h, as determined in appendix CC of subpart B of this part. For variable-speed portable air conditioners, SACC shall be SACC Full in Btu/h, as determined in appendix CC of subpart B of this part.\n\n(dd) General service lamps. Beginning July 25, 2022, the sale of any general service lamp that does not meet a minimum efficacy standard of 45 lumens per watt is prohibited.\n\n(1) Energy conservation standards for general service lamps:\n\n(i) General service incandescent lamps manufactured after the dates specified in the following tables, except as described in paragraph (dd)(1)(ii) of this section, shall have a color rendering index greater than or equal to 80 and shall have a rated wattage no greater than, and a lifetime no less than the values shown in the table as follows:\n\nGeneral Service Incandescent Lamps\n\n* Use lifetime determined in accordance with \u00a7 429.66 of this chapter to determine compliance with this standard.\n\n(ii) Modified spectrum general service incandescent lamps manufactured after the dates specified in the following table shall have a color rendering index greater than or equal to 75 and shall have a rated wattage no greater than, and a lifetime no less than the values shown in the table as follows:\n\nModified Spectrum General Service Incandescent Lamps\n\n1 Use lifetime determined in accordance with \u00a7 429.66 of this chapter to determine compliance with this standard.\n\n(iii) A bare or covered (no reflector) medium base compact fluorescent lamp manufactured on or after January 1, 2006, must meet or exceed the following requirements:\n\n1 Use labeled wattage to determine the appropriate efficacy requirements in this table; do not use measured wattage for this purpose.\n\n(iv) Each general service lamp manufactured on or after July 25, 2028 must have:\n\n(A) A power factor greater than or equal to 0.7 for integrated LED lamps (as defined in \u00a7 430.2) and 0.5 for medium base compact fluorescent lamps (as defined in \u00a7 430.2); and\n\n(B) A lamp efficacy greater than or equal to the values shown in the table as follows:\n\n1 This lamp type comprises of directional lamps. A directional lamp is a lamp that meets the definition of reflector lamp as defined in \u00a7 430.2.\n\n2 This lamp type comprises of, but is not limited to, lamps that are pin base compact fluorescent lamps (\u201cCFLs\u201d) and pin base light-emitting diode (\u201cLED\u201d) lamps designed and marketed as replacements of pin base CFLs.\n\n3 Indicates whether or not lamps are capable of operating in standby mode operation.\n\n(C) The standards described in paragraph (dd)(1)(iv) of this section do not apply to a general service lamp that:\n\n( 1 ) Is a general service organic light-emitting diode (OLED) lamps (as defined in \u00a7 430.2);\n\n( 2 ) Is a non-integrated lamp that is capable of operating in standby mode and is sold in packages of two lamps or less;\n\n( 3 ) Is designed and marketed as a lamp that has at least one setting that allows the user to change the lamp's correlated color temperature (CCT) and has no setting in which the lamp meets the definition of a colored lamp (as defined in \u00a7 430.2); and is sold in packages of two lamps or less;\n\n( 4 ) Is designed and marketed as a lamp that has at least one setting in which the lamp meets the definition of a colored lamp (as defined in \u00a7 430.2) and at least one other setting in which it does not meet the definition of colored lamp (as defined in \u00a7 430.2) and is sold in packages of two lamps or less; or\n\n( 5 ) Is designed and marketed as a lamp that has one or more component(s) offering a completely different functionality ( e.g., a speaker, a camera, an air purifier, etc.) where each component is integrated into the lamp but does not affect the light output of the lamp ( e.g., does not turn the light on/off, dim the light, change the color of the light, etc.), is capable of operating in standby mode, and is sold in packages of two lamps or less.\n\n(2) Medium base CFLs (as defined in \u00a7 430.2) manufactured on or after the dates specified in the following table shall meet or exceed the following standards:\n\n1 Lifetime refers to lifetime of a compact fluorescent lamp as defined in \u00a7 430.2.\n\n(ee) Air cleaners. (1) Conventional room air cleaners as defined in \u00a7 430.2 with a PM 2.5 clean air delivery rate (CADR) between 10 and 600 (both inclusive) cubic feet per minute (cfm) and manufactured on or after December 31, 2023, and before December 31, 2025, shall have an integrated energy factor (IEF) in PM 2.5 CADR/W, as determined in \u00a7 430.23(hh)(4) that meets or exceeds the following values:\n\n(2) Conventional room air cleaners as defined in \u00a7 430.2 with a PM 2.5 clean air delivery rate (CADR) between 10 and 600 (both inclusive) cubic feet per minute (cfm) and manufactured on or after December 31, 2025, shall have an integrated energy factor (IEF) in PM 2.5 CADR/W, as determined in \u00a7 430.23(hh)(4) that meets or exceeds the following values:"], ["10:10:3.0.1.4.18.3.11.3", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "C", "Subpart C\u2014Energy and Water Conservation Standards", "", "\u00a7 430.33 Preemption of State regulations.", "DOE", "", "", "[63 FR 13318, Mar. 18, 1998, as amended at 74 FR 12070, Mar. 23, 2009; 78 FR 62993, Oct. 23, 2013]", "(a) Any State regulation providing for any energy conservation standard, or water conservation standard (in the case of faucets, showerheads, water closets, and urinals), or other requirement with respect to the energy efficiency, energy use, or water use (in the case of faucets, showerheads, water closets, or urinals) of a covered product that is not identical to a Federal standard in effect under this subpart is preempted by that standard, except as provided for in sections 325(i)(6)(A)(vi), 327(b) and (c) of the Act.\n\n(b) No State regulation, or revision thereof, concerning the energy efficiency, energy use, or water use of the covered product shall be effective with respect to such covered product, unless the State regulation or revision in the case of any portion of any regulation that establishes requirements for general service incandescent lamps, intermediate base incandescent lamps, or candelabra base lamps, was enacted or adopted by the State of California or Nevada before December 4, 2007, except that\u2014\n\n(1) The regulation adopted by the California Energy Commission with an effective date of January 1, 2008, shall only be effective until the effective date of the Federal standard for the applicable lamp category under paragraphs (A), (B), and (C) of section 325(i)(1) of EPCA; and\n\n(2) The States of California and Nevada may, at any time, modify or adopt a State standard for general service lamps to conform with Federal standards with effective dates no earlier than 12 months prior to the Federal effective dates prescribed under paragraphs (A), (B), and (C) of section 325(i)(1) of EPCA, at which time any prior regulations adopted by the State of California or Nevada shall no longer be effective."], ["10:10:3.0.1.4.18.3.11.4", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "C", "Subpart C\u2014Energy and Water Conservation Standards", "", "\u00a7 430.34 Energy and water conservation standards amendments", "DOE", "", "", "[67 FR 36406, May 23, 2002]", "The Department of Energy may not prescribe any amended standard which increases the maximum allowable energy use or, in the case of showerheads, faucets, water closets or urinals, the maximum allowable water use, or which decreases the minimum required energy efficiency of a covered product."], ["10:10:3.0.1.4.18.3.11.5", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "C", "Subpart C\u2014Energy and Water Conservation Standards", "", "\u00a7 430.35 Petitions with respect to general service lamps.", "DOE", "", "", "[74 FR 12070, Mar. 23, 2009]", "(a) Any person may petition the Secretary for an exemption for a type of general service lamp from the requirements of this subpart. The Secretary may grant an exemption only to the extent that the Secretary finds, after a hearing and opportunity for public comment, that it is not technically feasible to serve a specialized lighting application (such as a military, medical, public safety or certified historic lighting application) using a lamp that meets the requirements of this subpart. To grant an exemption for a product under this paragraph, the Secretary shall include, as an additional criterion, that the exempted product is unlikely to be used in a general service lighting application.\n\n(b) Any person may petition the Secretary to establish standards for lamp shapes or bases that are excluded from the definition of general service lamps. The petition shall include evidence that the availability or sales of exempted lamps have increased significantly since December 19, 2007. The Secretary shall grant a petition if the Secretary finds that:\n\n(1) The petition presents evidence that demonstrates that commercial availability or sales of exempted incandescent lamp types have increased significantly since December 19, 2007 and are being widely used in general lighting applications; and\n\n(2) Significant energy savings could be achieved by covering exempted products, as determined by the Secretary based on sales data provided to the Secretary from manufacturers and importers."], ["10:10:3.0.1.4.18.4.11.1", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.40 Purpose and scope.", "DOE", "", "", "[63 FR 13318, Mar. 18, 1998]", "(a) This subpart prescribes the procedures to be followed in connection with petitions requesting a rule that a State regulation prescribing an energy conservation standard, water conservation standard (in the case of faucets, showerheads, water closets, and urinals), or other requirement respecting energy efficiency, energy use, or water use (in the case of faucets, showerheads, water closets, and urinals) of a type (or class) of covered product not be preempted.\n\n(b) This subpart also prescribes the procedures to be followed in connection with petitions to withdraw a rule exempting a State regulation prescribing an energy conservation standard, water conservation standard (in the case of faucets, showerheads, water closets, and urinals), or other requirement respecting energy efficiency, energy use, or water use (in the case of faucets, showerheads, water closets, and urinals) of a type (or class) of covered product."], ["10:10:3.0.1.4.18.4.11.10", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.49 Finality of decision.", "DOE", "", "", "[54 FR 6078, Feb. 7, 1989, as amended at 63 FR 13319, Mar. 18, 1998]", "(a) A decision to prescribe a rule that a State energy conservation standard, water conservation standard (in the case of faucets, showerheads, water closets, and urinals) or other requirement not be preempted is final on the date the rule is issued, i.e., signed by the Secretary. A decision to prescribe such a rule has no effect on other regulations of a covered product of any other State.\n\n(b) A decision to prescribe a rule withdrawing a rule exempting a State standard or other requirement is final on the date the rule is issued, i.e., signed by the Secretary. A decision to deny such a petition is final on the day a denial of a request for reconsideration is issued, i.e., signed by the Secretary."], ["10:10:3.0.1.4.18.4.11.2", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.41 Prescriptions of a rule.", "DOE", "", "", "[63 FR 13318, Mar. 18, 1998]", "(a) Criteria for exemption from preemption. Upon petition by a State which has prescribed an energy conservation standard, water conservation standard (in the case of faucets, showerheads, water closets, and urinals), or other requirement for a type or class of covered equipment for which a Federal energy conservation standard or water conservation standard is applicable, the Secretary shall prescribe a rule that such standard not be preempted if he determines that the State has established by a preponderance of evidence that such requirement is needed to meet unusual and compelling State or local energy interests or water interests. For the purposes of this section, the term \u201cunusual and compelling State or local energy interests or water interests\u201d means interests which are substantially different in nature or magnitude than those prevailing in the U.S. generally, and are such that when evaluated within the context of the State's energy plan and forecast, or water plan and forecast the costs, benefits, burdens, and reliability of energy savings or water savings resulting from the State regulation make such regulation preferable or necessary when measured against the costs, benefits, burdens, and reliability of alternative approaches to energy savings or water savings or production, including reliance on reasonably predictable market-induced improvements in efficiency of all equipment subject to the State regulation. The Secretary may not prescribe such a rule if he finds that interested persons have established, by a preponderance of the evidence, that the State's regulation will significantly burden manufacturing, marketing, distribution, sale or servicing of the covered equipment on a national basis. In determining whether to make such a finding, the Secretary shall evaluate all relevant factors including: the extent to which the State regulation will increase manufacturing or distribution costs of manufacturers, distributors, and others; the extent to which the State regulation will disadvantage smaller manufacturers, distributors, or dealers or lessen competition in the sale of the covered product in the State; the extent to which the State regulation would cause a burden to manufacturers to redesign and produce the covered product type (or class), taking into consideration the extent to which the regulation would result in a reduction in the current models, or in the projected availability of models, that could be shipped on the effective date of the regulation to the State and within the U.S., or in the current or projected sales volume of the covered product type (or class) in the State and the U.S.; and the extent to which the State regulation is likely to contribute significantly to a proliferation of State appliance efficiency requirements and the cumulative impact such requirements would have. The Secretary may not prescribe such a rule if he finds that such a rule will result in the unavailability in the State of any covered product (or class) of performance characteristics (including reliability), features, sizes, capacities, and volumes that are substantially the same as those generally available in the State at the time of the Secretary's finding. The failure of some classes (or types) to meet this criterion shall not affect the Secretary's determination of whether to prescribe a rule for other classes (or types).\n\n(1) Requirements of petition for exemption from preemption. A petition from a State for a rule for exemption from preemption shall include the information listed in paragraphs (a)(1)(i) through (a)(1)(vi) of this section. A petition for a rule and correspondence relating to such petition shall be available for public review except for confidential or proprietary information submitted in accordance with the Department of Energy's Freedom of Information Regulations set forth in 10 CFR part 1004:\n\n(i) The name, address, and telephone number of the petitioner;\n\n(ii) A copy of the State standard for which a rule exempting such standard is sought;\n\n(iii) A copy of the State's energy plan or water plan and forecast;\n\n(iv) Specification of each type or class of covered product for which a rule exempting a standard is sought;\n\n(v) Other information, if any, believed to be pertinent by the petitioner; and\n\n(vi) Such other information as the Secretary may require.\n\n(2) [Reserved]\n\n(b) Criteria for exemption from preemption when energy emergency conditions or water emergency conditions (in the case of faucets, showerheads, water closets, and urinals) exist within State. Upon petition by a State which has prescribed an energy conservation standard or water conservation standard (in the case of faucets, showerheads, water closets, and urinals) or other requirement for a type or class of covered product for which a Federal energy conservation standard or water conservation standard is applicable, the Secretary may prescribe a rule, effective upon publication in the Federal Register, that such State regulation not be preempted if he determines that in addition to meeting the requirements of paragraph (a) of this section the State has established that: an energy emergency condition or water emergency condition exists within the State that imperils the health, safety, and welfare of its residents because of the inability of the State or utilities within the State to provide adequate quantities of gas, electric energy, or water to its residents at less than prohibitive costs; and cannot be substantially alleviated by the importation of energy or water or the use of interconnection agreements; and the State regulation is necessary to alleviate substantially such condition.\n\n(1) Requirements of petition for exemption from preemption when energy emergency conditions or water emergency conditions (in the case of faucets, showerheads, water closets, and urinals) exist within a State. A petition from a State for a rule for exemption from preemption when energy emergency conditions or water emergency conditions exist within a State shall include the information listed in paragraphs (a)(1)(i) through (a)(1)(vi) of this section. A petition shall also include the information prescribed in paragraphs (b)(1)(i) through (b)(1)(iv) of this section, and shall be available for public review except for confidential or proprietary information submitted in accordance with the Department of Energy's Freedom of Information Regulations set forth in 10 CFR part 1004:\n\n(i) A description of the energy emergency condition or water emergency condition (in the case of faucets, showerheads, water closets, and urinals) which exists within the State, including causes and impacts.\n\n(ii) A description of emergency response actions taken by the State and utilities within the State to alleviate the emergency condition;\n\n(iii) An analysis of why the emergency condition cannot be alleviated substantially by importation of energy or water or the use of interconnection agreements; and\n\n(iv) An analysis of how the State standard can alleviate substantially such emergency condition.\n\n(2) [Reserved]\n\n(c) Criteria for withdrawal of a rule exempting a State standard. Any person subject to a State standard which, by rule, has been exempted from Federal preemption and which prescribes an energy conservation standard or water conservation standard (in the case of faucets, showerheads, water closets, and urinals) or other requirement for a type or class of a covered product, when the Federal energy conservation standard or water conservation standard (in the case of faucets, showerheads, water closets, and urinals) for such product subsequently is amended, may petition the Secretary requesting that the exemption rule be withdrawn. The Secretary shall consider such petition in accordance with the requirements of paragraph (a) of this section, except that the burden shall be on the petitioner to demonstrate that the exemption rule received by the State should be withdrawn as a result of the amendment to the Federal standard. The Secretary shall withdraw such rule if he determines that the petitioner has shown the rule should be withdrawn.\n\n(1) Requirements of petition to withdraw a rule exempting a State standard. A petition for a rule to withdraw a rule exempting a State standard shall include the information prescribed in paragraphs (c)(1)(i) through (c)(1)(vii) of this section, and shall be available for public review, except for confidential or proprietary information submitted in accordance with the Department of Energy's Freedom of Information Regulations set forth in 10 CFR part 1004:\n\n(i) The name, address and telephone number of the petitioner;\n\n(ii) A statement of the interest of the petitioner for which a rule withdrawing an exemption is sought;\n\n(iii) A copy of the State standard for which a rule withdrawing an exemption is sought;\n\n(iv) Specification of each type or class of covered product for which a rule withdrawing an exemption is sought;\n\n(v) A discussion of the factors contained in paragraph (a) of this section;\n\n(vi) Such other information, if any, believed to be pertinent by the petitioner; and\n\n(vii) Such other information as the Secretary may require.\n\n(2) [Reserved]"], ["10:10:3.0.1.4.18.4.11.3", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.42 Filing requirements.", "DOE", "", "", "", "(a) Service. All documents required to be served under this subpart shall, if mailed, be served by first class mail. Service upon a person's duly authorized representative shall constitute service upon that person.\n\n(b) Obligation to supply information. A person or State submitting a petition is under a continuing obligation to provide any new or newly discovered information relevant to that petition. Such information includes, but is not limited to, information regarding any other petition or request for action subsequently submitted by that person or State.\n\n(c) The same or related matters. A person or State submitting a petition or other request for action shall state whether to the best knowledge of that petitioner the same or related issue, act, or transaction has been or presently is being considered or investigated by any State agency, department, or instrumentality.\n\n(d) Computation of time. (1) Computing any period of time prescribed by or allowed under this subpart, the day of the action from which the designated period of time begins to run is not to be included. If the last day of the period is Saturday, or Sunday, or Federal legal holiday, the period runs until the end of the next day that is neither a Saturday, or Sunday or Federal legal holiday.\n\n(2) Saturdays, Sundays, and intervening Federal legal holidays shall be excluded from the computation of time when the period of time allowed or prescribed is 7 days or less.\n\n(3) When a submission is required to be made within a prescribed time, DOE may grant an extension of time upon good cause shown.\n\n(4) Documents received after regular business hours are deemed to have been submitted on the next regular business day. Regular business hours for the DOE's National Office, Washington, DC, are 8:30 a.m. to 4:30 p.m.\n\n(5) DOE reserves the right to refuse to accept, and not to consider, untimely submissions.\n\n(e) Filing of petitions. (1) A petition for a rule shall be submitted in triplicate to: The Assistant Secretary for Conservation and Renewable Energy, U.S. Department of Energy, Section 327 Petitions, Appliance Efficiency Standards, Forrestal Building, 1000 Independence Avenue, SW., Washington, DC 20585.\n\n(2) A petition may be submitted on behalf of more than one person. A joint petition shall indicate each person participating in the submission. A joint petition shall provide the information required by \u00a7 430.41 for each person on whose behalf the petition is submitted.\n\n(3) All petitions shall be signed by the person(s) submitting the petition or by a duly authorized representative. If submitted by a duly authorized representative, the petition shall certify this authorization.\n\n(4) A petition for a rule to withdraw a rule exempting a State regulation, all supporting documents, and all future submissions shall be served on each State agency, department, or instrumentality whose regulation the petitioner seeks to supersede. The petition shall contain a certification of this service which states the name and mailing address of the served parties, and the date of service.\n\n(f) Acceptance for filing. (1) Within fifteen (15) days of the receipt of a petition, the Secretary will either accept it for filing or reject it, and the petitioner will be so notified in writing. The Secretary will serve a copy of this notification on each other party served by the petitioner. Only such petitions which conform to the requirements of this subpart and which contain sufficient information for the purposes of a substantive decision will be accepted for filing. Petitions which do not so conform will be rejected and an explanation provided to petitioner in writing.\n\n(2) For purposes of the Act and this subpart, a petition is deemed to be filed on the date it is accepted for filing.\n\n(g) Docket. A petition accepted for filing will be assigned an appropriate docket designation. Petitioner shall use the docket designation in all subsequent submissions."], ["10:10:3.0.1.4.18.4.11.4", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.43 Notice of petition.", "DOE", "", "", "", "(a) Promptly after receipt of a petition and its acceptance for filing, notice of such petition shall be published in the Federal Register. The notice shall set forth the availability for public review of all data and information available, and shall solicit comments, data and information with respect to the determination on the petition. Except as may otherwise be specified, the period for public comment shall be 60 days after the notice appears in the Federal Register.\n\n(b) In addition to the material required under paragraph (a) of this section, each notice shall contain a summary of the State regulation at issue and the petitioner's reasons for the rule sought."], ["10:10:3.0.1.4.18.4.11.5", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.44 Consolidation.", "DOE", "", "", "", "DOE may consolidate any or all matters at issue in two or more proceedings docketed where there exist common parties, common questions of fact and law, and where such consolidation would expedite or simplify consideration of the issues. Consolidation shall not affect the right of any party to raise issues that could have been raised if consolidation had not occurred."], ["10:10:3.0.1.4.18.4.11.6", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.45 Hearing.", "DOE", "", "", "", "The Secretary may hold a public hearing, and publish notice in the Federal Register of the date and location of the hearing, when he determines that such a hearing is necessary and likely to result in a timely and effective resolution of the issues. A transcript shall be kept of any such hearing."], ["10:10:3.0.1.4.18.4.11.7", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.46 Disposition of petitions.", "DOE", "", "", "", "(a) After the submission of public comments under \u00a7 430.42(a), the Secretary shall prescribe a final rule or deny the petition within 6 months after the date the petition is filed.\n\n(b) The final rule issued by the Secretary or a determination by the Secretary to deny the petition shall include a written statement setting forth his findings and conclusions, and the reasons and basis therefor. A copy of the Secretary's decision shall be sent to the petitioner and the affected State agency. The Secretary shall publish in the Federal Register a notice of the final rule granting or denying the petition and the reasons and basis therefor.\n\n(c) If the Secretary finds that he cannot issue a final rule within the 6-month period pursuant to paragraph (a) of this section, he shall publish a notice in the Federal Register extending such period to a date certain, but no longer than one year after the date on which the petition was filed. Such notice shall include the reasons for the delay."], ["10:10:3.0.1.4.18.4.11.8", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.47 Effective dates of final rules.", "DOE", "", "", "[54 FR 6078, Feb. 7, 1989, as amended at 63 FR 13319, Mar. 18, 1998]", "(a) A final rule exempting a State standard from Federal preemption will be effective:\n\n(1) Upon publication in the Federal Register if the Secretary determines that such rule is needed to meet an \u201cenergy emergency condition or water emergency condition (in the case of faucets, showerheads, water closets, and urinals)\u201d within the State.\n\n(2) Three years after such rule is published in the Federal Register ; or\n\n(3) Five years after such rule is published in the Federal Register if the Secretary determines that such additional time is necessary due to the burdens of retooling, redesign or distribution.\n\n(b) A final rule withdrawing a rule exempting a State standard will be effective upon publication in the Federal Register."], ["10:10:3.0.1.4.18.4.11.9", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "D", "Subpart D\u2014Petitions To Exempt State Regulation From Preemption; Petitions To Withdraw Exemption of State Regulation", "", "\u00a7 430.48 Request for reconsideration.", "DOE", "", "", "", "(a) Any petitioner whose petition for a rule has been denied may request reconsideration within 30 days of denial. The request shall contain a statement of facts and reasons supporting reconsideration and shall be submitted in writing to the Secretary.\n\n(b) The denial of a petition will be reconsidered only where it is alleged and demonstrated that the denial was based on error in law or fact and that evidence of the error is found in the record of the proceedings.\n\n(c) If the Secretary fails to take action on the request for reconsideration within 30 days, the request is deemed denied, and the petitioner may seek such judicial review as may be appropriate and available.\n\n(d) A petitioner has not exhausted other administrative remedies until a request for reconsideration has been filed and acted upon or deemed denied."], ["10:10:3.0.1.4.18.5.11.1", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "E", "Subpart E\u2014Small Business Exemptions", "", "\u00a7 430.50 Purpose and scope.", "DOE", "", "", "[54 FR 6080, Feb. 7, 1989, as amended at 63 FR 13319, Mar. 18, 1998]", "(a) This subpart establishes procedures for the submission and disposition of applications filed by manufacturers of covered consumer products with annual gross revenues that do not exceed $8 million to exempt them temporarily from all or part of energy conservation standards or water conservation standards (in the case of faucets, showerheads, water closets, and urinals) established by this part.\n\n(b) The purpose of this subpart is to provide content and format requirements for manufacturers of covered consumer products with low annual gross revenues who desire to apply for temporary exemptions from applicable energy conservation standards or water conservation standards (in the case of faucets, showerheads, water closets, and urinals) ."], ["10:10:3.0.1.4.18.5.11.2", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "E", "Subpart E\u2014Small Business Exemptions", "", "\u00a7 430.51 Eligibility.", "DOE", "", "", "", "Any manufacturer of a covered product with annual gross revenues that do not exceed $8,000,000 from all its operations (including the manufacture and sale of covered products) for the 12-month period preceding the date of application may apply for an exemption. In determining the annual gross revenues of any manufacturer under this subpart, the annual gross revenue of any other person who controls, is controlled, by, or is under common control with, such manufacturer shall be taken into account."], ["10:10:3.0.1.4.18.5.11.3", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "E", "Subpart E\u2014Small Business Exemptions", "", "\u00a7 430.52 Requirements for applications.", "DOE", "", "", "", "(a) Each application filed under this subpart shall be submitted in triplicate to: U.S. Department of Energy, Small Business Exemptions, Appliance Efficiency Standards, Assistant Secretary for Conservation and Renewable Energy, Forrestal Building, 1000 Independence Avenue, SW., Washington, DC 20585.\n\n(b) An application shall be in writing and shall include the following:\n\n(1) Name and mailing address of applicant;\n\n(2) Whether the applicant controls, is controlled by, or is under common control with another manufacturer, and if so, the nature of that control relationship;\n\n(3) The text or substance of the standard or portion thereof for which the exemption is sought and the length of time desired for the exemption;\n\n(4) Information showing the annual gross revenue of the applicant for the preceding 12-month period from all of its operations (including the manufacture and sale of covered products):\n\n(5) Information to show that failure to grant an exemption is likely to result in a lessening of competition;\n\n(6) Such other information, if any, believed to be pertinent by the petitioner; and\n\n(7) Such other information as the Secretary may require."], ["10:10:3.0.1.4.18.5.11.4", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "E", "Subpart E\u2014Small Business Exemptions", "", "\u00a7 430.53 Processing of applications.", "DOE", "", "", "", "(a) The applicant shall serve a copy of the application, all supporting documents and all subsequent submissions, or a copy from which confidential information has been deleted pursuant to 10 CFR 1004.11, to the Secretary, which may be made available for public review.\n\n(b) Within fifteen (15) days of the receipt of an application, the Secretary will either accept it for filing or reject it, and the applicant will be so notified in writing. Only such applications which conform to the requirements of this subpart and which contain sufficient information for the purposes of a substantive decision will be accepted for filing. Applications which do not so conform will be rejected and an explanation provided to the applicant in writing.\n\n(c) For the purpose of this subpart, an application is deemed to be filed on the date it is accepted for filing.\n\n(d) Promptly after receipt of an application and its acceptance for filing, notice of such application shall be published in the Federal Register. The notice shall set forth the availability for public review of data and information available, and shall solicit comments, data and information with respect to the determination on the application. Except as may otherwise be specified, the period for public comment shall be 60 days after the notice appears in the Federal Register.\n\n(e) The Secretary on his own initiative may convene a hearing if, in his discretion, he considers such hearing will advance his evaluation of the application."], ["10:10:3.0.1.4.18.5.11.5", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "E", "Subpart E\u2014Small Business Exemptions", "", "\u00a7 430.54 Referral to the Attorney General.", "DOE", "", "", "", "Notice of the application for exemption under this subpart shall be transmitted to the Attorney General by the Secretary and shall contain (a) a statement of the facts and of the reasons for the exemption, and (b) copies of all documents submitted."], ["10:10:3.0.1.4.18.5.11.6", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "E", "Subpart E\u2014Small Business Exemptions", "", "\u00a7 430.55 Evaluation of application.", "DOE", "", "", "", "The Secretary shall grant an application for exemption submitted under this subpart if the Secretary finds, after obtaining the written views of the Attorney General, that a failure to allow an exemption would likely result in a lessening of competition."], ["10:10:3.0.1.4.18.5.11.7", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "E", "Subpart E\u2014Small Business Exemptions", "", "\u00a7 430.56 Decision and order.", "DOE", "", "", "", "(a) Upon consideration of the application and other relevant information received or obtained, the Secretary shall issue an order granting or denying the application.\n\n(b) The order shall include a written statement setting forth the relevant facts and the legal basis of the order.\n\n(c) The Secretary shall serve a copy of the order upon the applicant and upon any other person readily identifiable by the Secretary as one who is interested in or aggrieved by such order. The Secretary also shall publish in the Federal Register a notice of the grant or denial of the order and the reason therefor."], ["10:10:3.0.1.4.18.5.11.8", 10, "Energy", "II", "D", "430", "PART 430\u2014ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS", "E", "Subpart E\u2014Small Business Exemptions", "", "\u00a7 430.57 Duration of temporary exemption.", "DOE", "", "", "", "A temporary exemption terminates according to its terms but not later than twenty-four months after the affective date of the rule for which the exemption is allowed."], ["20:20:2.0.1.1.15.0.483.1", 20, "Employees' Benefits", "III", "", "430", "PART 430\u2014PERSONNEL", "", "", "", "\u00a7 430.101 Policy.", "SSA", "", "", "[62 FR 39935, July 25, 1997]", "(a) The Social Security Administration (SSA) may indemnify, in whole or in part, its employees (which for the purpose of this regulation includes former employees) for any verdict, judgment or other monetary award which is rendered against any such employee, provided that the conduct giving rise to the verdict, judgment or award was taken within the scope of his or her employment with SSA and that such indemnification is in the interest of the United States, as determined by the Commissioner, or his or her designee, in his or her discretion.\n\n(b) SSA may settle or compromise a personal damage claim against its employee by the payment of available funds, at any time, provided the alleged conduct giving rise to the personal damage claim was taken within the scope of employment and that such settlement or compromise is in the interest of the United States, as determined by the Commissioner, or his or her designee, in his or her discretion.\n\n(c) Absent exceptional circumstances, as determined by the Commissioner or his or her designee, SSA will not entertain a request either to agree to indemnify or to settle a personal damage claim before entry of an adverse verdict, judgment or monetary award.\n\n(d) When an employee of SSA becomes aware that an action has been filed against the employee in his or her individual capacity as a result of conduct taken within the scope of his or her employment, the employee should immediately notify SSA that such an action is pending.\n\n(e) The employee may, thereafter, request either:\n\n(1) Indemnification to satisfy a verdict, judgment or award entered against the employee; or\n\n(2) Payment to satisfy the requirements of a settlement proposal. The employee shall submit a written request, with documentation including copies of the verdict, judgment, award or settlement proposal, as appropriate, to the Deputy Commissioner or other designated official, who shall thereupon submit to the General Counsel, in a timely manner, a recommended disposition of the request. The General Counsel shall also seek the views of the Department of Justice. The General Counsel shall forward the request, the Deputy Commissioner's or other designated official's recommended disposition, and the General Counsel's recommendation to the Commissioner or his or her designee for decision.\n\n(f) Any payment under this section either to indemnify an SSA employee or to settle a personal damage claim shall be contingent upon the availability of appropriated funds."], ["40:40:32.0.1.1.6.0.3.1", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "", "", "", "\u00a7 430.00 Applicability.", "EPA", "", "", "", "(a) This part applies to any pulp, paper, or paperboard mill that discharges or may discharge process wastewater pollutants to the waters of the United States, or that introduces or may introduce process wastewater pollutants into a publicly owned treatment works.\n\n(b) The following table presents the subcategorization scheme codified in this part, with references to former subpart designations contained in the 1997 edition of 40 CFR parts 425 through 699:\n\nSubcategorization Scheme With References to Former Subparts Contained in the July 1, 1997 Edition of 40 CFR Parts 425 Through 699\n\na This subpart is contained in the 40 CFR parts 425 through 699, edition revised as of July 1, 1997."], ["40:40:32.0.1.1.6.0.3.2", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "", "", "", "\u00a7 430.01 General definitions.", "EPA", "", "", "[63 FR 18635, Apr. 15, 1998; 63 FR 42239, Aug. 7, 1998, as amended at 29834, May 18, 2012]", "In addition to the definitions set forth in 40 CFR part 401 and 40 CFR 403.3, the following definitions apply to this part:\n\n(a) Adsorbable organic halides (AOX). A bulk parameter that measures the total mass of chlorinated organic matter in water and wastewater. The approved method of analysis for AOX is Method 1650, which is available in Appendix A of this part, and online at http://water.epa.gov/scitech/methods/cwa/index.cfm.\n\n(b) Annual average. The mean concentration, mass loading or production-normalized mass loading of a pollutant over a period of 365 consecutive days (or such other period of time determined by the permitting authority to be sufficiently long to encompass expected variability of the concentration, mass loading, or production-normalized mass loading at the relevant point of measurement).\n\n(c) Bleach plant. All process equipment used for bleaching beginning with the first application of bleaching agents (e.g., chlorine, chlorine dioxide, ozone, sodium or calcium hypochlorite, or peroxide), each subsequent extraction stage, and each subsequent stage where bleaching agents are applied to the pulp. For mills in subpart E of this part producing specialty grades of pulp, the bleach plant includes process equipment used for the hydrolysis or extraction stages prior to the first application of bleaching agents. Process equipment used for oxygen delignification prior to the application of bleaching agents is not part of the bleach plant.\n\n(d) Bleach plant effluent. The total discharge of process wastewaters from the bleach plant from each physical bleach line operated at the mill, comprising separate acid and alkaline filtrates or the combination thereof.\n\n(e) Chemical oxygen demand (COD). A bulk parameter that measures the oxygen-consuming capacity of organic and inorganic matter present in water or wastewater. It is expressed as the amount of oxygen consumed from a chemical oxidant in a specific test.\n\n(f) Elemental chlorine-free (ECF). Any process for bleaching pulps in the absence of elemental chlorine and hypochlorite that uses exclusively chlorine dioxide as the only chlorine-containing bleaching agent.\n\n(g) End of the pipe. The point at which final mill effluent is discharged to waters of the United States or introduced to a POTW.\n\n(h) Fiber line. A series of operations employed to convert wood or other fibrous raw material into pulp. If the final product is bleached pulp, the fiber line encompasses pulping, de-knotting, brownstock washing, pulp screening, centrifugal cleaning, and multiple bleaching and washing stages.\n\n(i) Minimum level (ML). The level at which the analytical system gives recognizable signals and an acceptable calibration point. The following minimum levels apply to pollutants in this part:\n\na Picograms per liter.\n\nb Micrograms per liter.\n\n(j) New source. (1) Notwithstanding the criteria codified at 40 CFR 122.29(b)(1), a source subject to subpart B or E of this part is a \u201cnew source\u201d if it meets the definition of \u201cnew source\u201d at 40 CFR 122.2 and:\n\n(i) It is constructed at a site at which no other source is located; or\n\n(ii) It totally replaces the process or production equipment that causes the discharge of pollutants at an existing source, including the total replacement of a fiber line that causes the discharge of pollutants at an existing source, except as provided in paragraph (j)(2) of this section; or\n\n(iii) Its processes are substantially independent of an existing source at the same site. In determining whether these processes are substantially independent, the Director shall consider such factors as the extent to which the new facility is integrated with the existing plant; and the extent to which the new facility is engaged in the same general type of activity as the existing source.\n\n(2) The following are examples of changes made by mills subject to subparts B or E of this part that alone do not cause an existing mill to become a \u201cnew source\u201d:\n\n(i) Upgrades of existing pulping operations;\n\n(ii) Upgrades or replacement of pulp screening and washing operations;\n\n(iii) Installation of extended cooking and/or oxygen delignification systems or other post-digester, pre-bleaching delignification systems;\n\n(iv) Bleach plant modifications including changes in methods or amounts of chemical applications, new chemical applications, installation of new bleaching towers to facilitate replacement of sodium or calcium hypochlorite, and installation of new pulp washing systems; or\n\n(v) Total replacement of process or production equipment that causes the discharge of pollutants at an existing source (including a replacement fiber line), but only if such replacement is performed for the purpose of achieving limitations that have been included in the discharger's NPDES permit pursuant to \u00a7 430.24(b).\n\n(k) Non-continuous discharger. (1) Except as provided in paragraph (k)(2) of this section, a non-continuous discharger is a mill which is prohibited by the NPDES authority from discharging pollutants during specific periods of time for reasons other than treatment plant upset control, such periods being at least 24 hours in duration. A mill shall not be deemed a non-continuous discharger unless its permit, in addition to setting forth the prohibition described above, requires compliance with the effluent limitations established for non-continuous dischargers and also requires compliance with maximum day and average of 30 consecutive days effluent limitations. Such maximum day and average of 30 consecutive days effluent limitations for non-continuous dischargers shall be established by the NPDES authority in the form of concentrations which reflect wastewater treatment levels that are representative of the application of the best practicable control technology currently available, the best conventional pollutant control technology, or new source performance standards in lieu of the maximum day and average of 30 consecutive days effluent limitations for conventional pollutants set forth in each subpart.\n\n(2) A mill is a non-continuous discharger for the purposes of determining applicable effluent limitations under subpart B or E of this part (other than conventional limits for existing sources) if, for reasons other than treatment plant upset control (e.g., protecting receiving water quality), the mill is prohibited by the NPDES authority from discharging pollutants during specific periods of time or if it is required to release its discharge on a variable flow or pollutant loading rate basis.\n\n(l) POTW. Publicly owned treatment works as defined at 40 CFR 403.3(o).\n\n(m) Process wastewater. For subparts B and E only, process wastewater is any water that, during manufacturing or processing, comes into direct contact with or results from the production or use of any raw material, intermediate product, finished product, byproduct, or waste product. For purposes of subparts B and E of this part, process wastewater includes boiler blowdown; wastewaters from water treatment and other utility operations; blowdowns from high rate (e.g., greater than 98 percent) recycled non-contact cooling water systems to the extent they are mixed and co-treated with other process wastewaters; wastewater, including leachates, from landfills owned by pulp and paper mills subject to subpart B or E of this part if the wastewater is commingled with wastewater from the mill's manufacturing or processing facility; and storm waters from the immediate process areas to the extent they are mixed and co-treated with other process wastewaters. For purposes of this part, contaminated groundwaters from on-site or off-site groundwater remediation projects are not process wastewater.\n\n(n) Production. (1) For all limitations and standards specified in this part except those pertaining to AOX and chloroform: Production shall be defined as the annual off-the-machine production (including off-the-machine coating where applicable) divided by the number of operating days during that year. Paper and paperboard production shall be measured at the off-the-machine moisture content, except for subpart C of this part (as it pertains to pulp and paperboard production at unbleached kraft mills including linerboard or bag paper and other mixed products, and to pulp and paperboard production using the unbleached kraft neutral sulfite semi-chemical (cross recovery) process), and subparts F and J of this part (as they pertain to paperboard production from wastepaper from noncorrugating medium furnish or from corrugating medium furnish) where paper and paperboard production shall be measured in air-dry-tons (10% moisture content). Market pulp shall be measured in air-dry tons (10% moisture). Production shall be determined for each mill based upon past production practices, present trends, or committed growth.\n\n(2) For AOX and chloroform limitations and standards specified in subparts B and E of this part: Production shall be defined as the annual unbleached pulp production entering the first stage of the bleach plant divided by the number of operating days during that year. Unbleached pulp production shall be measured in air-dried-metric-tons (10% moisture) of brownstock pulp entering the bleach plant at the stage during which chlorine or chlorine-containing compounds are first applied to the pulp. In the case of bleach plants that use totally chlorine free bleaching processes, unbleached pulp production shall be measured in air-dried-metric tons (10% moisture) of brownstock pulp entering the first stage of the bleach plant from which wastewater is discharged. Production shall be determined for each mill based upon past production practices, present trends, or committed growth.\n\n(o) TCDD. 2,3,7,8-tetrachlorodibenzo-p-dioxin.\n\n(p) TCDF. 2,3,7,8-tetrachlorodibenzofuran.\n\n(q) Totally chlorine-free (TCF) bleaching. Pulp bleaching operations that are performed without the use of chlorine, sodium hypochlorite, calcium hypochlorite, chlorine dioxide, chlorine monoxide, or any other chlorine-containing compound.\n\n(r) Wet barking. Wet barking operations shall be defined to include hydraulic barking operations and wet drum barking operations which are those drum barking operations that use substantial quantities of water in either water sprays in the barking drums or in a partial submersion of the drums in a \u201ctub\u201d of water.\n\n(s) TCDD. 2,3,7,8-tetrachlorodibenzo- p -dioxin. The approved method of analysis for TCDD is Method 1613B, which is available in appendix A of this part, and online at http://water.epa.gov/scitech/methods/cwa/index.cfm.\n\n(t) TCDF. 2,3,7,8-tetrachlorodibenzofuran. The approved method of analysis for TCDF is Method 1613B, which is available in appendix A of this part, and online at http://water.epa.gov/scitech/methods/cwa/index.cfm.\n\n(u) Chloroform. The approved methods of analysis for chloroform are listed in Table IC at 40 CFR 136.3.\n\n(v) The approved method of analysis for the following chlorinated phenolic compounds is Method 1653, which is available in appendix A of this part, and online at http://water.epa.gov/scitech/methods/cwa/index.cfm :\n\n(1) Trichlorosyringol.\n\n(2) 3,4,5-Trichlorocatechol.\n\n(3) 3,4,6-Trichlorocatechol.\n\n(4) 3,4,5-Trichloroguaiacol.\n\n(5) 3,4,6-Trichloroguaiacol.\n\n(6) 4,5,6-Trichloroguaiacol.\n\n(7) 2,4,5-Trichlorophenol.\n\n(8) 2,4,6-Trichlorophenol.\n\n(9) Tetrachlorocatechol.\n\n(10) Tetrachloroguaiacol.\n\n(11) 2,3,4,6-Tetrachlorophenol.\n\n(12) Pentachlorophenol."], ["40:40:32.0.1.1.6.0.3.3", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "", "", "", "\u00a7 430.02 Monitoring requirements.", "EPA", "", "", "[63 FR 18635, Apr. 15, 1998, as amended at 67 FR 58997, Sept. 19, 2002; 72 FR 11248, Mar. 12, 2007]", "This section establishes minimum monitoring frequencies for certain pollutants. Where no monitoring frequency is specified in this section or where the duration of the minimum monitoring frequency has expired under paragraphs (b) through (e) of this section, the permit writer or pretreatment control authority shall determine the appropriate monitoring frequency in accordance with 40 CFR 122.44(i) or 40 CFR part 403, as applicable.\n\n(a) BAT, NSPS, PSES, and PSNS monitoring frequency for chlorinated organic pollutants. The following monitoring frequencies apply to discharges subject to subpart B or subpart E of this part:\n\na Non-TCF: Pertains to any fiber line that does not use exclusively TCF bleaching processes.\n\nb TCF: Pertains to any fiber line that uses exclusively TCF bleaching processes, as disclosed by the discharger in its permit application under 40 CFR 122.21(g)(3) and certified under 40 CFR 122.22 or, for indirect dischargers, as reported to the pretreatment control authority under 40 CFR 403.12 (b), (d), or (e).\n\nc This regulation does not specify a limit for this pollutant for TCF bleaching processes.\n\nd Monitoring frequency does not apply to this compound when used as a biocide. The permitting or pretreatment control authority must determine the appropriate monitoring frequency for this compound, when used as a biocide, under 40 CFR 122.44(i) or 40 CFR part 403, as applicable.\n\ne This regulation does not specify a limit for this pollutant for subpart E mills.\n\nf This regulation does not specify a limit for this pollutant for the ammonium-based or specialty grade sulfite pulp segments of subpart E.\n\n(b) Duration of required monitoring for BAT, NSPS, PSES, and PSNS. The monitoring frequencies specified in paragraph (a) of this section apply for the following time periods:\n\n(1) For direct dischargers, a duration of 5 years commencing on the date the applicable limitations or standards from subpart B or subpart E of this part are first included in the discharger's NPDES permit;\n\n(2) For existing indirect dischargers, until April 17, 2006;\n\n(3) For new indirect dischargers, a duration of 5 years commencing on the date the indirect discharger commences operation.\n\n(c) Reduced monitoring frequencies for bleach plant pollutants under the Voluntary Advanced Technology Incentives Program. The following monitoring frequencies apply to mills enrolled in the Voluntary Advanced Technology Incentives Program established under subpart B of this part for a duration of 5 years commencing after achievement of the applicable BAT limitations specified in \u00a7 430.24(b)(3) or NSPS specified in \u00a7 430.25(c)(1) for the following pollutants, except as noted in footnote f:\n\na Non-ECF: Pertains to any fiber line that does not use exclusively ECF or TCF bleaching processes.\n\nb Advanced ECF: Pertains to any fiber line that uses exclusively Advanced ECF bleaching processes, or exclusively ECF and TCF bleaching processes as disclosed by the discharger in its permit application under 40 CFR 122.21(g)(3) and certified under 40 CFR 122.22. Advanced ECF consists of the use of extended delignification or other technologies that achieve at least the Tier I performance levels specified in \u00a7 430.24(b)(4)(i).\n\nc TCF: Pertains to any fiber line that uses exclusively TCF bleaching processes, as disclosed by the discharger in its permit application under 40 CFR 122.21(g)(3) and certified under 40 CFR 122.22.\n\nd This regulation does not specify a limit for this pollutant for TCF bleaching processes.\n\ne Monitoring frequency does not apply to this compound when used as a biocide. The permitting authority must determine the appropriate monitoring frequency for this compound, when used as a biocide, under 40 CFR 122.44(i).\n\nf Monitoring requirements for these pollutants by mills certifying as Advanced ECF in their NPDES permit application or other communication to the permitting authority will be suspended after one year of monitoring. The permitting authority must determine the appropriate monitoring frequency for these pollutants beyond that time under 40 CFR 122.44(i).\n\n(d) Reduced monitoring frequencies for AOX under the Voluntary Advanced Technology Incentives Program (year one). The following monitoring frequencies apply to direct dischargers enrolled in the Voluntary Advanced Technology Incentives Program established under subpart B of this part for a duration of one year after achievement of the applicable BAT limitations specified in \u00a7 430.24(b)(4)(i) or NSPS specified in \u00a7 430.25(c)(2):\n\na Non-ECF: Pertains to any fiber line that does not use exclusively ECF or TCF bleaching processes.\n\nb Advanced ECF: Pertains to any fiber line that uses exclusively Advanced ECF bleaching processes or exclusively ECF and TCF bleaching processes, as disclosed by the discharger in its permit application under 40 CFR 122.21(g)(3) and certified under 40 CFR 122.22. Advanced ECF consists of the use of extended delignification or other technologies that achieve at least the Tier I performance levels specified in \u00a7 430.24(b)(4)(i).\n\nc TCF: Pertains to any fiber line that uses exclusively TCF bleaching processes, as disclosed by the discharger in its permit application under 40 CFR 122.21(g)(3) and certified under 40 CFR 122.22.\n\n(e) Reduced monitoring frequencies for AOX under the Voluntary Advanced Technology Incentives Program (years two through five). The following monitoring frequencies apply to mills enrolled in the Voluntary Advanced Technology Incentives Program established under subpart B of this part for a duration of four years starting one year after achievement of the applicable BAT limitations specified in \u00a7 430.24(b)(4)(i) or NSPS specified in \u00a7 430.25(c)(2):\n\na Non-ECF: Pertains to any fiber line that does not use exclusively ECF or TCF bleaching processes.\n\nb Advanced ECF: Pertains to any fiber line that uses exclusively Advanced ECF bleaching processes or exclusively ECF and TCF bleaching processes, as disclosed by the discharger in its permit application under 40 CFR 122.21(g)(3) and certified under 40 CFR 122.22. Advanced ECF consists of the use of extended delignification or other technologies that achieve at least the Tier I performance levels specified in \u00a7 430.24(b)(4)(i).\n\nc TCF: Pertains to any fiber line that uses exclusively TCF bleaching processes, as disclosed by the discharger in its permit application under 40 CFR 122.21(g)(3) and certified under 40 CFR 122.22.\n\n(f) Certification in Lieu of Monitoring for Chloroform \u2014(1) Under what circumstances may a discharger be exempt from the minimum monitoring requirements of this section for chloroform? A discharger subject to limitations or standards for chloroform under subpart B of this part is not subject to the minimum monitoring requirements specified in this section for chloroform at a fiber line to which the limitations or standards apply if the discharger meets the requirements of this section.\n\n(2) How do I qualify for the exemption? At the time you request an exemption from the minimum monitoring requirements of this section for chloroform from your permitting authority or pretreatment control authority for a fiber line, you must:\n\n(i) Demonstrate, based on 104 measurements taken over a period of not less than two years of monitoring conducted in accordance with paragraph (a) of this section, that you are complying with the applicable limitations or standards for chloroform;\n\n(ii) Certify that you will maintain a record of the maximum value for each of the following process and operating conditions for the fiber line that was recorded during the collection of each of the samples used to make the demonstration required under paragraph (f)(2)(i) of this section.\n\n(A) The pH of the first chlorine dioxide bleaching stage;\n\n(B) The chlorine (Cl 2 ) content of chlorine dioxide (ClO 2 ) used on the bleach line;\n\n(C) The kappa factor of the first chlorine dioxide bleaching stage; and\n\n(D) The total bleach line chlorine dioxide application rate;\n\n(iii) Identify the chlorine-containing compound used for bleaching during the collection of samples used to make the demonstration required under paragraph (f)(2)(i) of this section; and\n\n(iv) Certify that the fiber line does not use either elemental chlorine or hypochlorite as bleaching agents.\n\n(3) What happens if I change the process and operating conditions on the fiber line so that one or more exceeds the maximum value recorded under paragraph (f)(2)(ii) of this section for that process and operating condition? If you wish to continue your exemption from the minimum monitoring requirements of this section for chloroform, you must:\n\n(i) Demonstrate, based on monitoring conducted at a frequency similar to that required in paragraph (a) of this section and for a duration determined by the permitting or pretreatment control authority, that you are complying with the applicable limitations or standards for chloroform;\n\n(ii) Certify that you will maintain a record of the maximum value for each of the following process and operating conditions for the fiber line that was recorded during the collection of each of the samples used to make the demonstration required under paragraph (f)(6)(i) of this section:\n\n(A) The pH of the first chlorine dioxide bleaching stage;\n\n(B) The chlorine (Cl 2 ) content of chlorine dioxide (ClO 2 ) used on the bleach line;\n\n(C) The kappa factor of the first chlorine dioxide bleaching stage; and\n\n(D) The total bleach line chlorine dioxide application rate;\n\n(iii) Identify the chlorine-containing compound used for bleaching during the collection of each sample used to make the demonstration required under paragraph (f)(3)(i) of this section; and\n\n(iv) Certify that the fiber line does not use either elemental chlorine or hypochlorite as bleaching agents.\n\n(4) What are my reporting obligations? You must certify in reports required under \u00a7 122.41(l)(4) or \u00a7 403.12(b) of this chapter, as appropriate, that the chlorine-containing compounds used for bleaching are unchanged from those identified under paragraph (f)(2)(iii) of this section and that the following process and operating conditions maintained on the fiber line during the reporting period have not exceeded the maximum value recorded for each such condition during the collection of the samples used to make the demonstration required under paragraphs (f)(2)(i) or (f)(3)(i) of this section:\n\n(i) The pH of the first chlorine dioxide bleaching stage;\n\n(ii) The chlorine (Cl 2 ) content of chlorine dioxide (ClO 2 ) used on the bleach line;\n\n(iii) The kappa factor of the first chlorine dioxide bleaching stage; and\n\n(iv) The total bleach line chlorine dioxide application rate.\n\n(5) What happens if I fail to maintain the records described in paragraphs (f)(2)(ii) and (f)(3)(ii) of this section? You will be required to comply with the minimum monitoring requirements of this section for chloroform.\n\n(6) What happens if I exceed the maximum value recorded under paragraphs (f)(2)(ii) or (f)(3)(ii) of this section for any of the process and operating conditions identified in that section?\n\n(i) If for any reason (e.g., intentionally or due to process upset) you fail to maintain process and operating conditions at values equal to or less than the maximum value recorded under paragraphs (f)(2)(ii) or (f)(3)(ii) of this section for each such condition, you will be in violation of the applicable chloroform limitation or standard unless:\n\n(A) Within 30 days, you notify your permitting or pretreatment control authority in writing of the exceedance; and\n\n(B) You demonstrate compliance with the applicable chloroform limitation or standard by immediately monitoring the bleach plant effluent for chloroform at a frequency similar to that required in paragraph (a) of this section and for a duration determined by the permit or pretreatment control authority.\n\n(ii) In order to continue your exemption from the minimum monitoring requirements of this section for chloroform, you must meet the requirements of paragraph (f)(6)(i) of this section and you must recertify that the fiber line process and operating conditions do not exceed the maximum value recorded under paragraphs (f)(2)(ii) or (f)(3)(ii) of this section for each of the parameters identified in those paragraphs.\n\n(7) Definitions:\n\n(i) Kappa factor \u2014the ratio of available chlorine (total equivalent chlorine, as percent on oven dry pulp) to the kappa number of the pulp. Kappa number is the lignin content of pulp, as measured by a modified permanganate test corrected to 50 percent consumption of the chemical.\n\n(ii) Total bleach line chlorine dioxide application rate \u2014mass of chlorine dioxide applied in all stages of the bleach line per mass of unbleached pulp ( i.e., lb/ton or kg/kkg).\n\n(iii) Chlorine-containing compounds \u2014compounds containing chlorine used in the bleach plant for bleaching, brightening, whitening, or viscosity control. These compounds include but are not limited to chlorine (Cl 2 ), sodium hypochlorite (NaOCl), chlorine dioxide (ClO 2 ) and chlorine monoxide (Cl 2 O).\n\n(g) Analyst may use NCASI Method CP-86.07, \u201cChlorinated Phenolics in Water by In situ Acetylation and GC/MS Determination\u201d (January 2002) for determination of certain chlorinated phenols, chlorinated guaiacols, chlorinated catechols, chlorinated benzaldehydes ( i.e. , vanillins and syringaldehydes), and trichlorsyringol (analytes specified in the method) in bleach plant filtrate as an alternative to EPA Method 1653. NCASI Method CP-86.07 is available from the Publications Coordinator, NCASI, P.O. Box 13318, Research Triangle Park, NC 27709-3318. Telephone: 919-588-1987."], ["40:40:32.0.1.1.6.0.3.4", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "", "", "", "\u00a7 430.03 Best management practices (BMPs) for spent pulping liquor, soap, and turpentine management, spill prevention, and control.", "EPA", "", "", "[63 FR 18635, Apr. 15, 1998, as amended at 65 FR 46108, July 27, 2000]", "(a) Applicability. This section applies to direct and indirect discharging pulp, paper, and paperboard mills with pulp production in subparts B (Bleached Papergrade Kraft and Soda) and E (Papergrade Sulfite).\n\n(b) Specialized definitions \u2014(1) Action Level: A daily pollutant loading that when exceeded triggers investigative or corrective action. Mills determine action levels by a statistical analysis of six months of daily measurements collected at the mill. For example, the lower action level may be the 75th percentile of the running seven-day averages (that value exceeded by 25 percent of the running seven-day averages) and the upper action level may be the 90th percentile of the running seven-day averages (that value exceeded by 10 percent of the running seven-day averages).\n\n(2) Equipment Items in Spent Pulping Liquor, Soap, and Turpentine Service: Any process vessel, storage tank, pumping system, evaporator, heat exchanger, recovery furnace or boiler, pipeline, valve, fitting, or other device that contains, processes, transports, or comes into contact with spent pulping liquor, soap, or turpentine. Sometimes referred to as \u201cequipment items.\u201d\n\n(3) Immediate Process Area: The location at the mill where pulping, screening, knotting, pulp washing, pulping liquor concentration, pulping liquor processing, and chemical recovery facilities are located, generally the battery limits of the aforementioned processes. \u201cImmediate process area\u201d includes spent pulping liquor storage and spill control tanks located at the mill, whether or not they are located in the immediate process area.\n\n(4) Intentional Diversion: The planned removal of spent pulping liquor, soap, or turpentine from equipment items in spent pulping liquor, soap, or turpentine service by the mill for any purpose including, but not limited to, maintenance, grade changes, or process shutdowns.\n\n(5) Mill: The owner or operator of a direct or indirect discharging pulp, paper, or paperboard manufacturing facility subject to this section.\n\n(6) Senior Technical Manager: The person designated by the mill manager to review the BMP Plan. The senior technical manager shall be the chief engineer at the mill, the manager of pulping and chemical recovery operations, or other such responsible person designated by the mill manager who has knowledge of and responsibility for pulping and chemical recovery operations.\n\n(7) Soap: The product of reaction between the alkali in kraft pulping liquor and fatty acid portions of the wood, which precipitate out when water is evaporated from the spent pulping liquor.\n\n(8) Spent Pulping Liquor: For kraft and soda mills \u201cspent pulping liquor\u201d means black liquor that is used, generated, stored, or processed at any point in the pulping and chemical recovery processes. For sulfite mills \u201cspent pulping liquor\u201d means any intermediate, final, or used chemical solution that is used, generated, stored, or processed at any point in the sulfite pulping and chemical recovery processes (e.g., ammonium-, calcium-, magnesium-, or sodium-based sulfite liquors).\n\n(9) Turpentine: A mixture of terpenes, principally pinene, obtained by the steam distillation of pine gum recovered from the condensation of digester relief gases from the cooking of softwoods by the kraft pulping process. Sometimes referred to as sulfate turpentine.\n\n(c) Requirement to implement Best Management Practices. Each mill subject to this section must implement the Best Management Practices (BMPs) specified in paragraphs (c)(1) through (10) of this section. The primary objective of the BMPs is to prevent leaks and spills of spent pulping liquors, soap, and turpentine. The secondary objective is to contain, collect, and recover at the immediate process area, or otherwise control, those leaks, spills, and intentional diversions of spent pulping liquor, soap, and turpentine that do occur. BMPs must be developed according to best engineering practices and must be implemented in a manner that takes into account the specific circumstances at each mill. The BMPs are as follows:\n\n(1) The mill must return spilled or diverted spent pulping liquors, soap, and turpentine to the process to the maximum extent practicable as determined by the mill, recover such materials outside the process, or discharge spilled or diverted material at a rate that does not disrupt the receiving wastewater treatment system.\n\n(2) The mill must establish a program to identify and repair leaking equipment items. This program must include:\n\n(i) Regular visual inspections (e.g., once per day) of process areas with equipment items in spent pulping liquor, soap, and turpentine service;\n\n(ii) Immediate repairs of leaking equipment items, when possible. Leaking equipment items that cannot be repaired during normal operations must be identified, temporary means for mitigating the leaks must be provided, and the leaking equipment items repaired during the next maintenance outage;\n\n(iii) Identification of conditions under which production will be curtailed or halted to repair leaking equipment items or to prevent pulping liquor, soap, and turpentine leaks and spills; and\n\n(iv) A means for tracking repairs over time to identify those equipment items where upgrade or replacement may be warranted based on frequency and severity of leaks, spills, or failures.\n\n(3) The mill must operate continuous, automatic monitoring systems that the mill determines are necessary to detect and control leaks, spills, and intentional diversions of spent pulping liquor, soap, and turpentine. These monitoring systems should be integrated with the mill process control system and may include, e.g., high level monitors and alarms on storage tanks; process area conductivity (or pH) monitors and alarms; and process area sewer, process wastewater, and wastewater treatment plant conductivity (or pH) monitors and alarms.\n\n(4) The mill must establish a program of initial and refresher training of operators, maintenance personnel, and other technical and supervisory personnel who have responsibility for operating, maintaining, or supervising the operation and maintenance of equipment items in spent pulping liquor, soap, and turpentine service. The refresher training must be conducted at least annually and the training program must be documented.\n\n(5) The mill must prepare a brief report that evaluates each spill of spent pulping liquor, soap, or turpentine that is not contained at the immediate process area and any intentional diversion of spent pulping liquor, soap, or turpentine that is not contained at the immediate process area. The report must describe the equipment items involved, the circumstances leading to the incident, the effectiveness of the corrective actions taken to contain and recover the spill or intentional diversion, and plans to develop changes to equipment and operating and maintenance practices as necessary to prevent recurrence. Discussion of the reports must be included as part of the annual refresher training.\n\n(6) The mill must establish a program to review any planned modifications to the pulping and chemical recovery facilities and any construction activities in the pulping and chemical recovery areas before these activities commence. The purpose of such review is to prevent leaks and spills of spent pulping liquor, soap, and turpentine during the planned modifications, and to ensure that construction and supervisory personnel are aware of possible liquor diversions and of the requirement to prevent leaks and spills of spent pulping liquors, soap, and turpentine during construction.\n\n(7) The mill must install and maintain secondary containment ( i.e. , containment constructed of materials impervious to pulping liquors) for spent pulping liquor bulk storage tanks equivalent to the volume of the largest tank plus sufficient freeboard for precipitation. An annual tank integrity testing program, if coupled with other containment or diversion structures, may be substituted for secondary containment for spent pulping liquor bulk storage tanks.\n\n(8) The mill must install and maintain secondary containment for turpentine bulk storage tanks.\n\n(9) The mill must install and maintain curbing, diking or other means of isolating soap and turpentine processing and loading areas from the wastewater treatment facilities.\n\n(10) The mill must conduct wastewater monitoring to detect leaks and spills, to track the effectiveness of the BMPs, and to detect trends in spent pulping liquor losses. Such monitoring must be performed in accordance with paragraph (i) of this section.\n\n(d) Requirement to develop a BMP Plan. (1) Each mill subject to this section must prepare and implement a BMP Plan. The BMP Plan must be based on a detailed engineering review as described in paragraphs (d)(2) and (3) of this section. The BMP Plan must specify the procedures and the practices required for each mill to meet the requirements of paragraph (c) of this section, the construction the mill determines is necessary to meet those requirements including a schedule for such construction, and the monitoring program (including the statistically derived action levels) that will be used to meet the requirements of paragraph (i) of this section. The BMP Plan also must specify the period of time that the mill determines the action levels established under paragraph (h) of this section may be exceeded without triggering the responses specified in paragraph (i) of this section.\n\n(2) Each mill subject to this section must conduct a detailed engineering review of the pulping and chemical recovery operations\u2014including but not limited to process equipment, storage tanks, pipelines and pumping systems, loading and unloading facilities, and other appurtenant pulping and chemical recovery equipment items in spent pulping liquor, soap, and turpentine service\u2014for the purpose of determining the magnitude and routing of potential leaks, spills, and intentional diversions of spent pulping liquors, soap, and turpentine during the following periods of operation:\n\n(i) Process start-ups and shut downs;\n\n(ii) Maintenance;\n\n(iii) Production grade changes;\n\n(iv) Storm or other weather events;\n\n(v) Power failures; and\n\n(vi) Normal operations.\n\n(3) As part of the engineering review, the mill must determine whether existing spent pulping liquor containment facilities are of adequate capacity for collection and storage of anticipated intentional liquor diversions with sufficient contingency for collection and containment of spills. The engineering review must also consider:\n\n(i) The need for continuous, automatic monitoring systems to detect and control leaks and spills of spent pulping liquor, soap, and turpentine;\n\n(ii) The need for process wastewater diversion facilities to protect end-of-pipe wastewater treatment facilities from adverse effects of spills and diversions of spent pulping liquors, soap, and turpentine;\n\n(iii) The potential for contamination of storm water from the immediate process areas; and\n\n(iv) The extent to which segregation and/or collection and treatment of contaminated storm water from the immediate process areas is appropriate.\n\n(e) Amendment of BMP Plan. (1) Each mill subject to this section must amend its BMP Plan whenever there is a change in mill design, construction, operation, or maintenance that materially affects the potential for leaks or spills of spent pulping liquor, turpentine, or soap from the immediate process areas.\n\n(2) Each mill subject to this section must complete a review and evaluation of the BMP Plan five years after the first BMP Plan is prepared and, except as provided in paragraph (e)(1) of this section, once every five years thereafter. As a result of this review and evaluation, the mill must amend the BMP Plan within three months of the review if the mill determines that any new or modified management practices and engineered controls are necessary to reduce significantly the likelihood of spent pulping liquor, soap, and turpentine leaks, spills, or intentional diversions from the immediate process areas, including a schedule for implementation of such practices and controls.\n\n(f) Review and certification of BMP Plan. The BMP Plan, and any amendments thereto, must be reviewed by the senior technical manager at the mill and approved and signed by the mill manager. Any person signing the BMP Plan or its amendments must certify to the permitting or pretreatment control authority under penalty of law that the BMP Plan (or its amendments) has been prepared in accordance with good engineering practices and in accordance with this regulation. The mill is not required to obtain approval from the permitting or pretreatment control authority of the BMP Plan or any amendments thereto.\n\n(g) Record keeping requirements. (1) Each mill subject to this section must maintain on its premises a complete copy of the current BMP Plan and the records specified in paragraph (g)(2) of this section and must make such BMP Plan and records available to the permitting or pretreatment control authority and the Regional Administrator or his or her designee for review upon request.\n\n(2) The mill must maintain the following records for 3 years from the date they are created:\n\n(i) Records tracking the repairs performed in accordance with the repair program described in paragraph (c)(2) of this section;\n\n(ii) Records of initial and refresher training conducted in accordance with paragraph (c)(4) of this section;\n\n(iii) Reports prepared in accordance with paragraph (c)(5) of this section; and\n\n(iv) Records of monitoring required by paragraphs (c)(10) and (i) of this section.\n\n(h) Establishment of wastewater treatment system influent action levels. (1) Each mill subject to this section must conduct a monitoring program, described in paragraph (h)(2) of this section, for the purpose of defining wastewater treatment system influent characteristics (or action levels), described in paragraph (h)(3) of this section, that will trigger requirements to initiate investigations on BMP effectiveness and to take corrective action.\n\n(2) Each mill subject to this section must employ the following procedures in order to develop the action levels required by paragraph (h) of this section:\n\n(i) Monitoring parameters. The mill must collect 24-hour composite samples and analyze the samples for a measure of organic content (e.g., Chemical Oxygen Demand (COD) or Total Organic Carbon (TOC)). Alternatively, the mill may use a measure related to spent pulping liquor losses measured continuously and averaged over 24 hours (e.g., specific conductivity or color).\n\n(ii) Monitoring locations. For direct dischargers, monitoring must be conducted at the point influent enters the wastewater treatment system. For indirect dischargers monitoring must be conducted at the point of discharge to the POTW. For the purposes of this requirement, the mill may select alternate monitoring point(s) in order to isolate possible sources of spent pulping liquor, soap, or turpentine from other possible sources of organic wastewaters that are tributary to the wastewater treatment facilities (e.g., bleach plants, paper machines and secondary fiber operations).\n\n(3) By the date prescribed in paragraph (j)(1)(iii) of this section, each existing discharger subject to this section must complete an initial six-month monitoring program using the procedures specified in paragraph (h)(2) of this section and must establish initial action levels based on the results of that program. A wastewater treatment influent action level is a statistically determined pollutant loading determined by a statistical analysis of six months of daily measurements. The action levels must consist of a lower action level, which if exceeded will trigger the investigation requirements described in paragraph (i) of this section, and an upper action level, which if exceeded will trigger the corrective action requirements described in paragraph (i) of this section.\n\n(4) By the date prescribed in paragraph (j)(1)(vi) of this section, each existing discharger must complete a second six-month monitoring program using the procedures specified in paragraph (h)(2) of this section and must establish revised action levels based on the results of that program. The initial action levels shall remain in effect until replaced by revised action levels.\n\n(5) By the date prescribed in paragraph (j)(2) of this section, each new source subject to this section must complete a six-month monitoring program using the procedures specified in paragraph (h)(2) of this section and must develop a lower action level and an upper action level based on the results of that program.\n\n(6) Action levels developed under this paragraph must be revised using six months of monitoring data after any change in mill design, construction, operation, or maintenance that materially affects the potential for leaks or spills of spent pulping liquor, soap, or turpentine from the immediate process areas.\n\n(i) Monitoring, corrective action, and reporting requirements. (1) Each mill subject to this section must conduct daily monitoring of the influent to the wastewater treatment system in accordance with the procedures described in paragraph (h)(2) of this section for the purpose of detecting leaks and spills, tracking the effectiveness of the BMPs, and detecting trends in spent pulping liquor losses.\n\n(2) Whenever monitoring results exceed the lower action level for the period of time specified in the BMP Plan, the mill must conduct an investigation to determine the cause of such exceedance. Whenever monitoring results exceed the upper action level for the period of time specified in the BMP Plan, the mill must complete corrective action to bring the wastewater treatment system influent mass loading below the lower action level as soon as practicable.\n\n(3) Although exceedances of the action levels will not constitute violations of an NPDES permit or pretreatment standard, failure to take the actions required by paragraph (i)(2) of this section as soon as practicable will be a permit or pretreatment standard violation.\n\n(4) Each mill subject to this section must report to the NPDES permitting or pretreatment control authority the results of the daily monitoring conducted pursuant to paragraph (i)(1) of this section. Such reports must include a summary of the monitoring results, the number and dates of exceedances of the applicable action levels, and brief descriptions of any corrective actions taken to respond to such exceedances. Submission of such reports shall be at the frequency established by the NPDES permitting or pretreatment control authority, but in no case less than once per year.\n\n(j) Compliance deadlines \u2014(1) Existing direct and indirect dischargers. Except as provided in paragraph (j)(2) of this section for new sources, indirect discharging mills subject to this section must meet the deadlines set forth below. Except as provided in paragraph (j)(2) of this section for new sources, NPDES permits must require direct discharging mills subject to this section to meet the deadlines set forth below. If a deadline set forth below has passed at the time the NPDES permit containing the BMP requirement is issued, the NPDES permit must require immediate compliance with such BMP requirement(s).\n\n(i) Prepare BMP Plans and certify to the permitting or pretreatment authority that the BMP Plan has been prepared in accordance with this regulation not later than April 15, 1999;\n\n(ii) Implement all BMPs specified in paragraph (c) of this section that do not require the construction of containment or diversion structures or the installation of monitoring and alarm systems not later than April 15, 1999.\n\n(iii) Establish initial action levels required by paragraph (h)(3) of this section not later than April 15, 1999.\n\n(iv) Commence operation of any new or upgraded continuous, automatic monitoring systems that the mill determines to be necessary under paragraph (c)(3) of this section (other than those associated with construction of containment or diversion structures) not later than April 17, 2000.\n\n(v) Complete construction and commence operation of any spent pulping liquor, collection, containment, diversion, or other facilities, including any associated continuous monitoring systems, necessary to fully implement BMPs specified in paragraph (c) of this section not later than April 16, 2001.\n\n(vi) Establish revised action levels required by paragraph (h)(4) of this section as soon as possible after fully implementing the BMPs specified in paragraph (c) of this section, but not later than January 15, 2002.\n\n(2) New sources. Upon commencing discharge, new sources subject to this section must implement all of the BMPs specified in paragraph (c) of this section, prepare the BMP Plan required by paragraph (d) of this section, and certify to the permitting or pretreatment authority that the BMP Plan has been prepared in accordance with this regulation as required by paragraph (f) of this section, except that the action levels required by paragraph (h)(5) of this section must be established not later than 12 months after commencement of discharge, based on six months of monitoring data obtained prior to that date in accordance with the procedures specified in paragraph (h)(2) of this section.\n\n(k) The provisions of paragraphs (c) through (j) of this section do not apply to the bleached papergrade kraft mill, commonly known as the Androscoggin Mill, that is owned by International Paper and located in Jay, Maine. In lieu of imposing the requirements specified in those paragraphs, the permitting authority shall establish conditions for the discharge of COD and color for this mill on the basis of best professional judgment."], ["40:40:32.0.1.1.6.1.4.1", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "A", "Subpart A\u2014Dissolving Kraft Subcategory", "", "\u00a7 430.10 Applicability; description of the dissolving kraft subcategory.", "EPA", "", "", "", "The provisions of this subpart apply to discharges resulting from the production of dissolving pulp at kraft mills."], ["40:40:32.0.1.1.6.1.4.2", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "A", "Subpart A\u2014Dissolving Kraft Subcategory", "", "\u00a7 430.11 Specialized definitions.", "EPA", "", "", "", "For the purpose of this subpart, the general definitions, abbreviations, and methods of analysis set forth in 40 CFR part 401 and \u00a7 430.01 of this part shall apply to this subpart."], ["40:40:32.0.1.1.6.1.4.3", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "A", "Subpart A\u2014Dissolving Kraft Subcategory", "", "\u00a7 430.12 Effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT).", "EPA", "", "", "", "(a) Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT), except that non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days limitations but shall be subject to annual average effluent limitations:\n\nSubpart A\n\n[BPT effluent limitations]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\n(b) The following limitations establish the quantity or quality of pollutants or pollutant properties, controlled by this section, resulting from the use of wet barking operations, which may be discharged by a point source subject to the provisions of this subpart. These limitations are in addition to the limitations set forth in paragraph (a) of this section and shall be calculated using the proportion of the mill's total production due to use of logs which are subject to such operations. Non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days limitations, but shall be subject to annual average effluent limitations:\n\nSubpart A\n\n[BPT effluent limitations]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\n(c) The following limitations establish the quantity or quality of pollutants or pollutant parameters, controlled by this section, resulting from the use of log washing or chip washing operations, which may be discharged by a point source subject to the provisions of this subpart. These limitations are in addition to the limitations set forth in paragraph (a) of this section and shall be calculated using the proportion of the mill's total production due to use of logs and/or chips which are subject to such operations. Non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days limitations, but shall be subject to the annual average effluent limitations:\n\nSubpart A\n\n[BPT effluent limitations]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\n(d) The following limitations establish the quantity or quality of pollutants or pollutant properties, controlled by this section, resulting from the use of log flumes or log ponds, which may be discharged by a point source subject to the provisions of this subpart. These limitations are in addition to the limitations set forth in paragraph (a) of this section and shall be calculated using the proportion of the mill's total production due to use of logs which are subject to such operations. Non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days limitations but shall be subject to the annual average effluent limitations:\n\nSubpart A\n\n[BPT effluent limitations]\n\n1 Within the range of 5.0 to 9.0 at all times."], ["40:40:32.0.1.1.6.1.4.4", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "A", "Subpart A\u2014Dissolving Kraft Subcategory", "", "\u00a7 430.13 Effluent limitations guidelines representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart shall achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT): The limitations shall be the same as those specified for conventional pollutants (which are defined in 40 CFR 401.16) in \u00a7 430.12 of this subpart for the best practicable control technology currently available (BPT)."], ["40:40:32.0.1.1.6.1.4.5", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "A", "Subpart A\u2014Dissolving Kraft Subcategory", "", "\u00a7 430.14 Effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable (BAT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart where chlorophenolic-containing biocides are used must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable (BAT). Non-continuous dischargers shall not be subject to the maximum day mass limitations in kg/kkg (lb/1000 lb) but shall be subject to concentration limitations. Concentration limitations are only applicable to non-continuous dischargers. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart A\n\n[BAT effluent limitations]"], ["40:40:32.0.1.1.6.1.4.6", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "A", "Subpart A\u2014Dissolving Kraft Subcategory", "", "\u00a7 430.15 New source performance standards (NSPS).", "EPA", "", "", "", "Any new source subject to this subpart must achieve the following new source performance standards (NSPS), except that non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days effluent limitations for BOD5 and TSS, but shall be subject to annual average effluent limitations. Also, for non-continuous dischargers, concentration limitations (mg/l) shall apply, where provided. Concentration limitations will only apply to non-continuous dischargers. Only facilities where chlorophenolic-containing biocides are used shall be subject to pentachlorophenol and trichlorophenol limitations. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart A\n\n[NSPS]\n\n1 Within the range of 5.0 to 9.0 at all times."], ["40:40:32.0.1.1.6.1.4.7", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "A", "Subpart A\u2014Dissolving Kraft Subcategory", "", "\u00a7 430.16 Pretreatment standards for existing sources (PSES).", "EPA", "", "", "", "Except as provided in 40 CFR 403.7 and 403.13, any existing source subject to this subpart that introduces pollutants into a publicly owned treatment works must: comply with 40 CFR part 403; and achieve the following pretreatment standards for existing sources (PSES) if it uses chlorophenolic-containing biocides. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides. PSES must be attained on or before July 1, 1984:\n\nSubpart A\n\n[PSES]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations."], ["40:40:32.0.1.1.6.1.4.8", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "A", "Subpart A\u2014Dissolving Kraft Subcategory", "", "\u00a7 430.17 Pretreatment standards for new sources (PSNS).", "EPA", "", "", "", "Except as provided in 40 CFR 403.7, any new source subject to this subpart that introduces pollutants into a publicly owned treatment works must: comply with 40 CFR part 403; and achieve the following pretreatment standards for new sources (PSNS) if it uses chlorophenolic-containing biocides. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart A\n\n[PSNS]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations."], ["40:40:32.0.1.1.6.10.4.1", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "J", "Subpart J\u2014Secondary Fiber Non-Deink Subcategory", "", "\u00a7 430.100 Applicability; description of the secondary fiber non-deink subcategory.", "EPA", "", "", "", "The provisions of this subpart are applicable to discharges resulting from the production of: Paperboard from wastepaper; tissue paper from wastepaper without deinking at secondary fiber mills; molded products from wastepaper without deinking at secondary fiber mills; and builders' paper and roofing felt from wastepaper."], ["40:40:32.0.1.1.6.10.4.2", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "J", "Subpart J\u2014Secondary Fiber Non-Deink Subcategory", "", "\u00a7 430.101 Specialized definitions.", "EPA", "", "", "", "For the purpose of this subpart:\n\n(a) Except as provided below, the general definitions, abbreviations, and methods of analysis set forth in 40 CFR part 401 and \u00a7 430.01 of this part shall apply to this subpart.\n\n(b) Noncorrugating medium furnish subdivision mills are mills where recycled corrugating medium is not used in the production of paperboard.\n\n(c) Corrugating medium furnish subdivision mills are mills where only recycled corrugating medium is used in the production of paperboard."], ["40:40:32.0.1.1.6.10.4.3", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "J", "Subpart J\u2014Secondary Fiber Non-Deink Subcategory", "", "\u00a7 430.102 Effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT).", "EPA", "", "", "", "(a) Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT):\n\nSubpart J\n\n[BPT effluent limitations for secondary fiber non-deink facilities where paperboard from wastepaper is produced\u2014noncorrugating medium finish subdivision]\n\n1 1Within the range of 6.0 to 9.0 at all times.\n\nSubpart J\n\n[BPT effluent limitations for secondary fiber non-deink facilities where paperboard from wastepaper is produced\u2014corrugating medium finish subdivision]\n\n1 Within the range of 6.0 to 9.0 at all times.\n\nSubpart J\n\n[BPT effluent limitations for secondary fiber non-deink facilities where builders' paper and roofing felt from wastepaper are produced]\n\n1 Within the range of 6.0 to 9.0 at all times.\n\n2 Not to exceed 0.2 ml/l.\n\n(b) Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT), except that non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days limitations but shall be subject to annual average effluent limitations:\n\nSubpart J\n\n[BPT effluent limitations for secondary fiber non-deink facilities where tissue from wastepaper is produced without deinking]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart J\n\n[BPT effluent limitations for secondary fiber non-deink facilities where molded products from wastepaper are produced without deinking]\n\n1 Within the range of 5.0 to 9.0 at all times."], ["40:40:32.0.1.1.6.10.4.4", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "J", "Subpart J\u2014Secondary Fiber Non-Deink Subcategory", "", "\u00a7 430.103 Effluent limitations guidelines representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT).", "EPA", "", "", "", "(a) Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart shall achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT): The limitations shall be the same as those specified for conventional pollutants (which are defined in 40 CFR 401.16) in \u00a7 430.102 of this subpart for the best practicable control technology currently available (BPT).\n\n(b) For secondary fiber non-deink facilities where paperboard from wastepaper is produced, non-continuous dischargers shall not be subject to the maximum day and average-of-30-consecutive-days limitations, but shall be subject to annual average effluent limitations determined by dividing the average-of-30-consecutive-days limitations for BOD5 and TSS by 1.77 and 2.18.\n\n(c) For secondary fiber non-deink facilities where builders' paper and roofing felt from wastepaper are produced, non-continuous dischargers shall not be subject to the maximum day and average-of-30-consecutive-days limitations, but shall be subject to annual average effluent limitations determined by dividing the average-of-30-consecutive-days limitations for BOD5 and TSS by 1.90 and 1.90."], ["40:40:32.0.1.1.6.10.4.5", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "J", "Subpart J\u2014Secondary Fiber Non-Deink Subcategory", "", "\u00a7 430.104 Effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable (BAT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart where chlorophenolic-containing biocides are used must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable (BAT). Non-continuous dischargers shall not be subject to the maximum day mass limitations in kg/kkg (lb/1000 lb) but shall be subject to concentration limitations. Concentration limitations are only applicable to non-continuous dischargers. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart J\n\n[BAT effluent limitations for secondary fiber non-deink facilities where paperboard from wastepaper is produced]\n\nSubpart J\n\n[BAT effluent limitations for secondary fiber non-deink facilities where builders' paper and roofing felt from wastepaper are produced]\n\nSubpart J\n\n[BAT effluent limitations for secondary fiber non-deink facilities where tissue from wastepaper is produced without deinking]\n\nSubpart J\n\n[BAT effluent limitations for secondary fiber non-deink facilities where molded products from wastepaper are produced without deinking]"], ["40:40:32.0.1.1.6.10.4.6", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "J", "Subpart J\u2014Secondary Fiber Non-Deink Subcategory", "", "\u00a7 430.105 New source performance standards (NSPS).", "EPA", "", "", "", "Any new source subject to this subpart must achieve the following new source performance standards (NSPS), except that non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days effluent limitations for BOD5 and TSS, but shall be subject to annual average effluent limitations. Also, for non-continuous dischargers, concentration limitations (mg/l) shall apply, where provided. Concentration limitations will only apply to non-continuous dischargers. Only facilities where chlorophenolic-containing biocides are used shall be subject to pentachlorophenol and trichlorophenol limitations. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart J\n\n[NSPS for secondary fiber non-deink facilities where paperboard from wastepaper is produced\u2014noncorrugating medium furnish subdivision]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart J\n\n[NSPS for secondary fiber non-deink facilities where paperboard from wastepaper is produced\u2014corrugating medium finish subdivision]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart J\n\n[NSPS for secondary fiber non-deink facilities where builders' paper and roofing felt from wastepaper are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart J\n\n[NSPS for secondary fiber non-deink facilities where tissue from wastepaper is produced without deinking]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart J\n\n[NSPS for secondary fiber non-deink facilities where molded products from wastepaper are produced without deinking]\n\n1 Within the range of 5.0 to 9.0 at all times."], ["40:40:32.0.1.1.6.10.4.7", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "J", "Subpart J\u2014Secondary Fiber Non-Deink Subcategory", "", "\u00a7 430.106 Pretreatment standards for existing sources (PSES).", "EPA", "", "", "", "Except as provided in 40 CFR 403.7 and 403.13, any existing source subject to this subpart that introduces pollutants into a publicly owned treatment works must: Comply with 40 CFR part 403; and achieve the following pretreatment standards for existing sources (PSES) if it uses chlorophenolic-containing biocides. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides. PSES must be attained on or before July 1, 1984:\n\nSubpart J\n\n[PSES for secondary fiber non-deink facilities where paperboard from wastepaper is produced]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart J\n\n[PSES for secondary fiber non-deink facilities where builders' paper and roofing felt from wastepaper are produced]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart J\n\n[PSES for secondary fiber non-deink facilities where tissue from wastepaper is produced without deinking]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart J\n\n[PSES for secondary fiber non-deink facilities where molded products from wastepaper are produced without deinking]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations."], ["40:40:32.0.1.1.6.10.4.8", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "J", "Subpart J\u2014Secondary Fiber Non-Deink Subcategory", "", "\u00a7 430.107 Pretreatment standards for new sources (PSNS).", "EPA", "", "", "", "Except as provided in 40 CFR 403.7, any new source subject to this subpart that introduces pollutants into a publicly owned treatment works must: Comply with 40 CFR part 403; and achieve the following pretreatment standards for new sources (PSNS) if it uses chlorophenolic-containing biocides. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart J\n\n[PSNS for secondary fiber non-deink facilities where paperboard from wastepaper is produced]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart J\n\n[PSNS for secondary fiber non-deink facilities where builders' paper and roofing felt from wastepaper are produced]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart J\n\n[PSNS for secondary fiber non-deink facilities where tissue from wastepaper is produced without deinking]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart J\n\n[PSNS for secondary fiber non-deink facilities where molded products from wastepaper are produced without deinking]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations."], ["40:40:32.0.1.1.6.11.4.1", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "K", "Subpart K\u2014Fine and Lightweight Papers from Purchased Pulp Subcategory", "", "\u00a7 430.110 Applicability; description of the fine and lightweight papers from purchased pulp subcategory.", "EPA", "", "", "", "The provisions of this subpart are applicable to discharges resulting from the production of: fine paper at nonintegrated mills; and lightweight paper at nonintegrated mills."], ["40:40:32.0.1.1.6.11.4.2", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "K", "Subpart K\u2014Fine and Lightweight Papers from Purchased Pulp Subcategory", "", "\u00a7 430.111 Specialized definitions.", "EPA", "", "", "", "For the purpose of this subpart:\n\n(a) Except as provided in paragraphs (b) and (c) of this section, the general definitions, abbreviations, and methods of analysis set forth in 40 CFR part 401 and \u00a7 430.01 of this part shall apply to this subpart.\n\n(b) Cotton fiber furnish subdivision mills are those mills where significant quantities of cotton fibers (equal to or greater than 4 percent of the total product) are used in the production of fine papers.\n\n(c) Wood fiber furnish subdivision mills are those mills where cotton fibers are not used in the production of fine papers."], ["40:40:32.0.1.1.6.11.4.3", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "K", "Subpart K\u2014Fine and Lightweight Papers from Purchased Pulp Subcategory", "", "\u00a7 430.112 Effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT), except that non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days limitations but shall be subject to annual average effluent limitations:\n\nSubpart K\n\n[BPT effluent limitations for non-integrated mills where fine paper is produced from purchased pulp\u2014wood fiber furnish subdivision]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart K\n\n[BPT effluent limitations for non-integrated mills where fine paper is produced from purchased pulp\u2014cotton fiber furnish subdivision]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart K\n\n[BPT effluent limitations for non-integrated mills where lightweight papers are produced from purchased pulp]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart K\n\n[BPT effluent limitations for non-integrated mills where lightweight papers are produced from purchased pulp\u2014electrical grade papers subdivision\n\n1 Within the range of 5.0 to 9.0 at all times."], ["40:40:32.0.1.1.6.11.4.4", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "K", "Subpart K\u2014Fine and Lightweight Papers from Purchased Pulp Subcategory", "", "\u00a7 430.113 Effluent limitations guidelines representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart shall achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT): The limitations shall be the same as those specified for conventional pollutants (which are defined in 40 CFR 401.16) in \u00a7 430.102 of this subpart for the best practicable control technology currently available (BPT)."], ["40:40:32.0.1.1.6.11.4.5", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "K", "Subpart K\u2014Fine and Lightweight Papers from Purchased Pulp Subcategory", "", "\u00a7 430.114 Effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable (BAT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart where chlorophenolic-containing biocides are used must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable (BAT). Non-continuous dischargers shall not be subject to the maximum day mass limitations in kg/kkg (lb/1000 lb) but shall be subject to concentration limitations. Concentration limitations are only applicable to non-continuous dischargers. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart K\n\n[BAT effluent limitations for non-integrated mills where fine paper is produced from purchased pulp\u2014wood fiber furnish subdivision]\n\nSubpart K\n\n[BAT effluent limitations for non-integrated mills where fine paper is produced from purchased pulp\u2014cotton fiber furnish subdivision]\n\nSubpart K\n\n[BAT effluent limitations for non-integrated mills where lightweight papers are produced from purchased pulp]\n\nSubpart K\n\n[BAT effluent limitations for non-integrated mills where lightweight papers are produced from purchased pulp\u2014electrical grade papers subdivision]"], ["40:40:32.0.1.1.6.11.4.6", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "K", "Subpart K\u2014Fine and Lightweight Papers from Purchased Pulp Subcategory", "", "\u00a7 430.115 New source performance standards (NSPS).", "EPA", "", "", "", "Any new source subject to this subpart must achieve the following new source performance standards (NSPS), except that non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days effluent limitations for BOD5 and TSS, but shall be subject to annual average effluent limitations. Also, for non-continuous dischargers, concentration limitations (mg/l) shall apply, where provided. Concentration limitations will only apply to non-continuous dischargers. Only facilities where chlorophenolic-containing biocides are used shall be subject to pentachlorophenol and trichlorophenol limitations. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart K\n\n[NSPS for non-integrated mills where fine paper is produced from purchased pulp\u2014wood fiber furnish subdivision]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart K\n\n[NSPS for non-integrated mills where fine paper is produced from purchased pulp\u2014cotton fiber furnish subdivision]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart K\n\n[NSPS for non-integrated mills where lightweight papers are produced from purchased pulp]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart K\n\n[NSPS for non-integrated mills where lightweight papers are produced from purchased pulp\u2014electrical grade papers subdivision]\n\n1 Within the range of 5.0 to 9.0 at all times."], ["40:40:32.0.1.1.6.11.4.7", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "K", "Subpart K\u2014Fine and Lightweight Papers from Purchased Pulp Subcategory", "", "\u00a7 430.116 Pretreatment standards for existing sources (PSES).", "EPA", "", "", "", "Except as provided in 40 CFR 403.7 and 403.13, any existing source subject to this subpart that introduces pollutants into a publicly owned treatment works must: Comply with 40 CFR part 403; and achieve the following pretreatment standards for existing sources (PSES) if it uses chlorophenolic-containing biocides. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides. PSES must be attained on or before July 1, 1984:\n\nSubpart K\n\n[PSES for non-integrated mills where fine paper is produced from purchased pulp\u2014wood fiber furnish subdivision]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart K\n\n[PSES for non-integrated mills where fine paper is produced from purchased pulp\u2014cotton fiber furnish subdivision]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart K\n\n[PSES for non-integrated mills where lightweight papers are produced from purchased pulp]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart K\n\n[PSES for non-integrated mills where lightweight papers are produced from purchased pulp\u2014electrical grade papers subdivision]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations."], ["40:40:32.0.1.1.6.11.4.8", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "K", "Subpart K\u2014Fine and Lightweight Papers from Purchased Pulp Subcategory", "", "\u00a7 430.117 Pretreatment standards for new sources (PSNS).", "EPA", "", "", "", "Except as provided in 40 CFR 403.7, any new source subject to this subpart that introduces pollutants into a publicly owned treatment works must: Comply with 40 CFR part 403; and achieve the following pretreatment standards for new sources (PSNS) if it uses chlorophenolic-containing biocides. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart K\n\n[PSNS for non-integrated mills where fine paper is produced from purchased pulp\u2014wood fiber furnish subdivision]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart K\n\n[PSNS for non-integrated mills where fine paper is produced from purchased pulp\u2014cotton fiber furnish subdivision]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart K\n\n[PSNS for non-integrated mills where lightweight papers are produced from purchased pulp]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart K\n\n[PSNS for non-integrated mills where lightweight papers are produced from purchased pulp\u2014electrical grade papers subdivision]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations."], ["40:40:32.0.1.1.6.12.4.1", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "L", "Subpart L\u2014Tissue, Filter, Non-Woven, and Paperboard From Purchased Pulp Subcategory", "", "\u00a7 430.120 Applicability; description of the tissue, filter, non-woven, and paperboard from purchased pulp subcategory.", "EPA", "", "", "", "The provisions of this subpart are applicable to discharges resulting from the production of tissue papers at non-integrated mills, filter and non-woven papers at non-integrated mills, and paperboard at non-integrated mills. The production of electrical grades of board and matrix board is not included in this subpart."], ["40:40:32.0.1.1.6.12.4.2", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "L", "Subpart L\u2014Tissue, Filter, Non-Woven, and Paperboard From Purchased Pulp Subcategory", "", "\u00a7 430.121 Specialized definitions.", "EPA", "", "", "", "For the purpose of this subpart, the general definitions, abbreviations, and methods of analysis set forth in 40 CFR part 401 and \u00a7 430.01 of this part shall apply to this subpart."], ["40:40:32.0.1.1.6.12.4.3", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "L", "Subpart L\u2014Tissue, Filter, Non-Woven, and Paperboard From Purchased Pulp Subcategory", "", "\u00a7 430.122 Effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT), except that non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days limitations but shall be subject to annual average effluent limitations:\n\nSubpart L\n\n[BPT effluent limitations for non-integrated mills where tissue papers are produced from purchased pulp]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart L\n\n[BPT effluent limitations for non-integrated mills where filter and non-woven papers are produced from purchased pulp]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart L\n\n[BPT effluent limitations for non-integrated mills where paperboard is produced from purchased pulp]\n\n1 Within the range of 5.0 to 9.0 at all times."], ["40:40:32.0.1.1.6.12.4.4", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "L", "Subpart L\u2014Tissue, Filter, Non-Woven, and Paperboard From Purchased Pulp Subcategory", "", "\u00a7 430.123 Effluent limitations guidelines representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart shall achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT): The limitations shall be the same as those specified for conventional pollutants (which are defined in 40 CFR 401.16) in \u00a7 430.122 of this subpart for the best practicable control technology currently available (BPT)."], ["40:40:32.0.1.1.6.12.4.5", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "L", "Subpart L\u2014Tissue, Filter, Non-Woven, and Paperboard From Purchased Pulp Subcategory", "", "\u00a7 430.124 Effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable (BAT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart where chlorophenolic-containing biocides are used must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable (BAT). Non-continuous dischargers shall not be subject to the maximum day mass limitations in kg/kkg (lb/1000 lb) but shall be subject to concentration limitations. Concentration limitations are only applicable to non-continuous dischargers. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart L\n\n[BAT effluent limitations for non-integrated mills where tissue papers are produced from purchased pulp]\n\nSubpart L\n\n[BAT effluent limitations for non-integrated mills where filter and non-woven papers are produced from purchased pulp]\n\nSubpart L\n\n[BAT effluent limitations for non-integrated mills where paperboard is produced from purchased pulp]"], ["40:40:32.0.1.1.6.12.4.6", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "L", "Subpart L\u2014Tissue, Filter, Non-Woven, and Paperboard From Purchased Pulp Subcategory", "", "\u00a7 430.125 New source performance standards (NSPS).", "EPA", "", "", "", "Any new source subject to this subpart must achieve the following new source performance standards (NSPS), except that non-continuous dischargers shall not be subject to the maximum day and average of 30 consecutive days effluent limitations for BOD5 and TSS, but shall be subject to annual average effluent limitations. Also, for non-continuous dischargers, concentration limitations (mg/l) shall apply, where provided. Concentration limitations will only apply to non-continuous dischargers. Only facilities where chlorophenolic-containing biocides are used shall be subject to pentachlorophenol and trichlorophenol limitations. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart L\n\n[NSPS for non-integrated mills where tissue papers are produced from purchased pulp]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart L\n\n[NSPS for non-integrated mills where filter and non-woven papers are produced from purchased pulp]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart L\n\n[NSPS for non-integrated mills where paperboard is produced from purchased pulp]\n\n(\n 1 ) Within the range of 5.0 to 9.0 at all times."], ["40:40:32.0.1.1.6.12.4.7", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "L", "Subpart L\u2014Tissue, Filter, Non-Woven, and Paperboard From Purchased Pulp Subcategory", "", "\u00a7 430.126 Pretreatment standards for existing sources (PSES).", "EPA", "", "", "", "Except as provided in 40 CFR 403.7 and 403.13, any existing source subject to this subpart that introduces pollutants into a publicly owned treatment works must: Comply with 40 CFR part 403; and achieve the following pretreatment standards for existing sources (PSES) if it uses chlorophenolic-containing biocides. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides. PSES must be attained on or before July 1, 1984:\n\nSubpart L\n\n[PSES for non-integrated mills where tissue papers are produced from purchased pulp]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart L\n\n[PSES for non-integrated mills where filter and non-woven papers are produced from purchased pulp]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart L\n\n[PSES for non-integrated mills where paperboard is produced from purchased pulp]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations."], ["40:40:32.0.1.1.6.12.4.8", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "L", "Subpart L\u2014Tissue, Filter, Non-Woven, and Paperboard From Purchased Pulp Subcategory", "", "\u00a7 430.127 Pretreatment standards for new sources (PSNS).", "EPA", "", "", "", "Except as provided in 40 CFR 403.7, any new source subject to this subpart that introduces pollutants into a publicly owned treatment works must: Comply with 40 CFR part 403; and achieve the following pretreatment standards for new sources (PSNS) if it uses chlorophenolic-containing biocides. Permittees not using chlorophenolic-containing biocides must certify to the permit-issuing authority that they are not using these biocides:\n\nSubpart L\n\n[PSNS for non-integrated mills where tissue papers are produced from purchased pulp]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart L\n\n[PSNS for non-integrated mills where filter and non-woven papers are produced from purchased pulp]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations.\n\nSubpart L\n\n[PSNS for non-integrated mills where paperboard is produced from purchased pulp]\n\na The following equivalent mass limitations are provided as guidance in cases when POTWs find it necessary to impose mass effluent limitations."], ["40:40:32.0.1.1.6.2.4.1", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "B", "Subpart B\u2014Bleached Papergrade Kraft and Soda Subcategory", "", "\u00a7 430.20 Applicability; description of the bleached papergrade kraft and soda subcategory.", "EPA", "", "", "", "The provisions of this subpart apply to discharges resulting from: The production of market pulp at bleached kraft mills; the integrated production of paperboard, coarse paper, and tissue paper at bleached kraft mills; the integrated production of pulp and fine papers at bleached kraft mills; and the integrated production of pulp and paper at soda mills."], ["40:40:32.0.1.1.6.2.4.2", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "B", "Subpart B\u2014Bleached Papergrade Kraft and Soda Subcategory", "", "\u00a7 430.21 Specialized definitions.", "EPA", "", "", "", "(a) The general definitions, abbreviations, and methods of analysis set forth in 40 CFR part 401 and \u00a7 430.01 of this part apply to this subpart.\n\n(b) Baseline BAT limitations or NSPS means the BAT limitations specified in \u00a7 430.24(a) (1) or (2), as applicable, and the NSPS specified in \u00a7 430.25(b) (1) or (2), as applicable, that apply to any direct discharger that is not \u201cenrolled\u201d in the \u201cVoluntary Advanced Technology Incentives Program.\u201d\n\n(c) Enroll means to notify the permitting authority that a mill intends to participate in the \u201cVoluntary Advanced Technology Incentives Program.\u201d A mill can enroll by indicating its intention to participate in the program either as part of its application for a National Pollutant Discharge Elimination System (NPDES) permit, or through separate correspondence to the permitting authority as long as the mill signs the correspondence in accordance with 40 CFR 122.22.\n\n(d) Existing effluent quality means the level at which the pollutants identified in \u00a7 430.24(a)(1) are present in the effluent of a mill \u201cenrolled\u201d in the \u201cVoluntary Advanced Technology Incentives Program.\u201d\n\n(e) Kappa number is a measure of the lignin content in unbleached pulp, determined after pulping and prior to bleaching.\n\n(f) Voluntary Advanced Technology Incentives Program is the program established under \u00a7 430.24(b) (for existing direct dischargers) and \u00a7 430.25(c) (for new direct dischargers) whereby participating mills agree to accept enforceable effluent limitations and conditions in their NPDES permits that are more stringent than the \u201cbaseline BAT limitations or NSPS\u201d that would otherwise apply, in exchange for regulatory- and enforcement-related rewards and incentives."], ["40:40:32.0.1.1.6.2.4.3", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "B", "Subpart B\u2014Bleached Papergrade Kraft and Soda Subcategory", "", "\u00a7 430.22 Effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT).", "EPA", "", "", "", "(a) Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available (BPT):\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where market pulp is produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where paperboard, coarse paper, and tissue paper are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where pulp and fine papers are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for soda facilities where pulp and paper are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\n(b) The following limitations establish the quantity or quality of pollutants or pollutant properties, controlled by this section, resulting from the use of wet barking operations, which may be discharged by a point source subject to the provisions of this subpart. These limitations are in addition to the limitations set forth in paragraph (a) of this section and shall be calculated using the proportion of the mill's total production due to use of logs which are subject to such operations:\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where market pulp is produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where paperboard, coarse paper, and tissue paper are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where pulp and fine papers are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for soda facilities where pulp and papers are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\n(c) The following limitations establish the quantity or quality of pollutants or pollutant parameters, controlled by this section, resulting from the use of log washing or chip washing operations, which may be discharged by a point source subject to the provisions of this subpart. These limitations are in addition to the limitations set forth in paragraph (a) of this section and shall be calculated using the proportion of the mill's total production due to use of logs and/or chips which are subject to such operations:\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where market pulp is produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where paperboard, coarse paper, and tissue paper are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where pulp and fine papers are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for soda facilities where pulp and papers are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\n(d) The following limitations establish the quantity or quality of pollutants or pollutant properties, controlled by this section, resulting from the use of log flumes or log ponds, which may be discharged by a point source subject to the provisions of this subpart. These limitations are in addition to the limitations set forth in paragraph (a) of this section and shall be calculated using the proportion of the mill's total production due to use of logs which are subject to such operations:\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where market pulp is produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where paperboard, coarse paper, and tissue paper are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for bleached kraft facilities where pulp and fine papers are produced]\n\n1 Within the range of 5.0 to 9.0 at all times.\n\nSubpart B\n\n[BPT effluent limitations for soda facilities where pulp and papers are produced]\n\n1 Within the range of 5.0 to 9.0 at all times."], ["40:40:32.0.1.1.6.2.4.4", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "B", "Subpart B\u2014Bleached Papergrade Kraft and Soda Subcategory", "", "\u00a7 430.23 Effluent limitations representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT).", "EPA", "", "", "", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best conventional pollutant control technology (BCT). The limitations shall be the same as those specified in \u00a7 430.22 of this subpart for the best practicable control technology currently available (BPT)."], ["40:40:32.0.1.1.6.2.4.5", 40, "Protection of Environment", "I", "N", "430", "PART 430\u2014THE PULP, PAPER, AND PAPERBOARD POINT SOURCE CATEGORY", "B", "Subpart B\u2014Bleached Papergrade Kraft and Soda Subcategory", "", "\u00a7 430.24 Effluent limitations representing the degree of effluent reduction attainable by the application of best available technology economically achievable (BAT).", "EPA", "", "", "[63 FR 18635, Apr. 15, 1998; 63 FR 42239, Aug. 7, 1998, as amended at 64 FR 36586, July 7, 1999]", "Except as provided in 40 CFR 125.30 through 125.32, any existing point source subject to this subpart must achieve the following effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable (BAT).\n\n(a) Except as provided in paragraph (b) of this section\u2014\n\n(1) The following effluent limitations apply with respect to each fiber line that does not use an exclusively TCF bleaching process, as disclosed by the discharger in its NPDES permit application under 40 CFR 122.21(g)(3) and certified under 40 CFR 122.22:\n\nSubpart B\n\na \u201c