2.1 To the extent that definitions in the IESNA and CIE standards do not conflict with the DOE definitions, the definitions specified in §1.2 of IESNA LM-9, §3.0 of IESNA LM-20, §2 of IESNA LM-45, §2 of IESNA LM-58, §1.2 of IESNA LM-66 and §IV of CIE Publication No. 13.2 shall be included. 2.2 ANSI Standard means a standard developed by a committee accredited by the American National Standards Institute (ANSI). 2.3 CIE means the International Commission on Illumination. 2.4 CRI means Color Rendering Index as defined in § 430.2. 2.5 IESNA means the Illuminating Engineering Society of North America. 2.6 Lamp efficacy means the ratio of measured lamp lumen output in lumens to the measured lamp electrical power input in watts, rounded to the nearest whole number, in units of lumens per watt. 2.7 Lamp lumen output means the total luminous flux produced by the lamp, at the reference condition, in units of lumens. 2.8 Lamp electrical power input means the total electrical power input to the lamp, including both arc and cathode power where appropriate, at the reference condition, in units of watts. 2.9 Reference condition means the test condition specified in IESNA LM-9 for general service fluorescent lamps, in IESNA LM20 for incandescent reflector lamps, in IESNA LM-45 for general service incandescent lamps and in IESNA LM-66 for medium base compact fluorescent lamps (see 10 CFR 430.22). 3. Test Conditions 3.1 General Service Fluorescent Lamps: For general service fluorescent lamps, the ambient conditions of the test and the electrical circuits, reference ballasts, stabilization requirements, instruments, detectors, and photometric test procedure and test report shall be as described in the relevant sections of IESNA LM-9 (see 10 CFR 430.22). 3.2 General Service Incandescent Lamps: For general service incandescent lamps, the selection and seasoning (initial burn-in) of the test lamps, the equipment and instrumentation, and the test conditions shall be as described in IESNA LM-45 (see 10 CFR 430.22). 3.3 Incandescent Reflector Lamps: For incandescent reflector lamps, the selection and seasoning (initial burn-in) of the test lamps, the equipment and instrumentation, and the test conditions shall conform to sections 4.2 and 5.0 of IESNA LM-20 (see 10 CFR 430.22). 3.4 Medium Base Compact Fluorescent Lamps: For medium base compact fluorescent lamps, the selection, seasoning and stabilization of the test lamps, and the test conditions, shall be as described in Sections 1, 2, 3, and 7 of IESNA LM-66 (see 10 CFR 430.22). 4. Test Methods and Measurements All lumen measurements made with instruments calibrated to the devalued NIST lumen after January 1, 1996, shall be multiplied by 1.011. 4.1 General Service Fluorescent Lamps 4.1.1 The measurement procedure shall be as described in IESNA LM-9, except that lamps shall be operated at the appropriate voltage and current conditions as described in ANSI C78.375 and in ANSI C78.1, C78.2 or C78.3, and lamps shall be operated using the appropriate reference ballast as described in ANSI C82.3 (see 10 CFR 430.22). 4.1.2 Lamp lumen output (lumens) and lamp electrical power input (watts), at the reference condition, shall be measured and recorded. Lamp efficacy shall be determined by computing the ratio of the measured lamp lumen output and lamp electrical power input at equilibrium for the reference condition. 4.2 General Service Incandescent Lamps 4.2.1 The measurement procedure shall be as described in IESNA LM-45 (see 10 CFR 430.22). Lamps shall be operated at the rated voltage as defined in § 430.2. 4.2.2 The test procedure shall conform with section 7 of IESNA LM-45 and the lumen output of the lamp shall be determined in accordance with Sections 4.2a or 4.2b of IESNA LM-45 at the reference condition. Lamp electrical power input in watts shall be measured and recorded. Lamp efficacy shall be determined by computing the ratio of the measured lamp lumen output and lamp electrical power input at equilibrium for the reference condition. The test report shall conform to §8 of IESNA LM-45 (see 10 CFR §430.22). 4.3 Incandescent Reflector Lamps 4.3.1 The measurement procedure shall be as described in IESNA LM-20 (see 10 CFR 430.22). Lamps shall be operated at the rated voltage as defined in § 430.2. 4.3.2. Lamp lumen output shall be determined as total forward lumens, and may be measured in an integrating sphere at the reference condition in accordance with §7.2 of IESNA LM-20 (see 10 CFR 430.22) or from an average intensity distribution curve measured at the reference condition specified in §6.0 of IESNA LM-20. Lamp electrical power input in watts shall be measured and recorded. 4.3.3 Lamp efficacy shall be determined by computing the ratio of the measured lamp lumen output and lamp electrical power input at equilibrium for the reference condition. The test report shall conform to section 10.0 of IES LM-20 (see § 430.22). 4.4 Medium Base Compact Fluorescent Lamps 4.4.1 The measurement procedure shall be as described in IESNA LM-66 (see 10 CFR 430.22) except that the provisions of IESNA LM-66 which refer to operation of the lamp using a reference ballast do not apply to the testing of integrally ballasted compact fluorescent lamps. Lamps shall be operated at 120 V and 60 Hertz. Lamp lumen output shall be measured with the integral ballast according to section 11.3 of IESNA LM-66. Lamp electrical power input in watts shall be measured and recorded. 4.4.2 Lamp efficacy shall be determined by computing the ratio of the measured lamp lumen output and lamp electrical power input at equilibrium for the reference condition. The test report shall conform to section 13 of IESNA LM-66 (see 10 CFR 430.22). 4.5 Determination of Color Rendering Index 4.5.1 The CRI shall be determined in accordance with the method specified in CIE Publication 13.2 for general service fluorescent The required spectroradiometric measurement and characterization shall be conducted in lamps. accordance with the methods given in IESNA LM-58 and IESNA LM-16 (see 10 CFR 430.22). 4.5.2 The test report shall include a description of the test conditions, equipment, measured lamps, spectroradiometric measurement results and CRI determina tion. [62 FR 29240, May 29, 1997] APPENDIX S TO SUBPART B OF PART 430-UNIFORM TEST METHOD FOR MEASURING THE WATER CONSUMPTION OF FAUCETS AND SHOWERHEADS 1. Scope: This Appendix covers the test requirements used to measure the hydraulic performance of faucets and showerheads. 2. Flow Capacity Requirements: a. Faucets-The test procedures to measure the water flow rate for faucets, expressed in gallons per minute (gpm) and liters per minute (L/min), or gallons per cycle (gal/ cycle) and liters per cycle (L/cycle), shall be conducted in accordance with the test requirements specified in section 6.5, Flow Capacity Test, of the ASME/ANSI Standard A112.18.1M-1996 (see § 430.22). Measurements shall be recorded at the resolution of the test instrumentation. Calculations shall be rounded off to the same number of significant digits as the previous step. The final water consumption value shall be rounded to one decimal place for non-metered faucets, or two decimal places for metered faucets. b. Showerheads-The test conditions to measure the water flow rate for showerheads, expressed in gallons per minute (gpm) and liters per minute (L/min), shall be conducted in accordance with the test requirements specified in section 6.5, Flow Capacity Test, of the ASME/ANSI Standard A112.18.1M-1996 (see § 430.22). Measurements shall be recorded at the resolution of the test instrumentation. Calculations shall be rounded off to the same number of significant digits as the previous step. The final water consumption value shall be rounded to one decimal place. [63 FR 13316, Mar. 18, 1998] APPENDIX T TO SUBPART B OF PART 430-UNIFORM TEST METHOD FOR MEASURING THE WATER CONSUMPTION OF WATER CLOSETS AND URINALS 1. Scope: This Appendix covers the test requirements used to measure the hydraulic performances of water closets and urinals. 2. Test Apparatus and General Instructions: a. The test apparatus and instructions for testing water closets shall conform to the requirements specified in section 7.1.2, Test Apparatus and General Requirements, subsections 7.1.2.1, 7.1.2.2, and 7.1.2.3 of the ASME/ANSI Standard A112.19.6-1995 (see § 430.22). Measurements shall be recorded at the resolution of the test instrumentation. Calculations shall be rounded off to the same number of significant digits as the previous step. The final water consumption value shall be rounded to one decimal place. b. The test apparatus and instructions for testing urinals shall conform to the requirements specified in section 8.2, Test Apparatus and General Requirements, subsections 8.2.1, 8.2.2, and 8.2.3 of the ASME/ANSI Standard A112.19.6-1995 (see $430.22). Measurements shall be recorded at the resolution of the test instrumentation. Calculations shall be rounded off to the same number of significant digits as the previous step. The final water consumption value shall be rounded to one decimal place. 3. Test Measurement: a. Water closets-The measurement of the water flush volume for water closets, expressed in gallons per flush (gpf) and liters per flush (Lpf), shall be conducted in accordance with the test requirements specified in section 7.1.6, Water Consumption and Hydraulic Characteristics, of the ASME/ANSI Standard A112.19.6-1995 (see § 430.22). b. Urinals-The measurement of water flush volume for urinals, expressed in gallons per flush (gpf) and liters per flush (Lpf), shall be conducted in accordance with the test requirements specified in section 8.5, Water Consumption, of the ASME/ANSI Standard A112.19.6-1995 (see § 430.22). [63 FR 13317, Mar. 18, 1998] Subpart C-Energy and Water § 430.31 Purpose and scope. 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 Product class 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.). Basic models of covered products manufactured before the date on which an amended energy conservation standard or water conservation standard (in the case of faucets, showerheads, water closets, and urinals) becomes effective (or revisions of such models that are manufactured after such date and have the same energy efficiency, energy use characteristics, or water use characteristics (in the case of faucets, showerheads, water closets, and urinals), that comply with the energy conservation standard or water conservation standard (in the case of faucets, showerheads, water closets, and urinals) applicable to such covered products on the day before such date shall be deemed to comply with the amended energy conservation standard or water conservation standard (in the case of faucets, showerheads, water closets, and urinals). [63 FR 13317, Mar. 18, 1998] § 430.32 Energy and water conservation standards and effective dates. The energy and water (in the case of faucets, showerheads, water closets, and urinals) conservation standards for the covered product classes are: (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). 3. Refrigerator-Freezers-automatic defrost with top-mounted freezer without throughthe-door ice service and all-refrigerators-automatic defrost 4. Refrigerator-Freezers-automatic defrost with side-mounted freezer without throughthe-door ice service Product class 5. Refrigerator-Freezers-automatic defrost with bottom-mounted freezer without through-the-door ice service 6. Refrigerator-Freezers automatic defrost with top-mounted freezer with through-thedoor ice service 7. Refrigerator-Freezers-automatic defrost with side-mounted freezer with throughthe-door ice service 13. Compact Refrigerator-Freezers—automatic defrost with top-mounted freezer and compact all-refrigerators-automatic defrost 14. Compact Refrigerator-Freezers-automatic defrost with side-mounted freezer 11.8AV+501a 7.60AV+501.0 0.42av+501a 0.27av+501.0 15. Compact Refrigerator-Freezers-automatic defrost with bottom-mounted freezer AV=Total adjusted volume, expressed in ft.3, as determined in Appendices A1 and B1 of subpart B of this part. av-Total adjusted volume, expressed in Liters. 0.37av+152.0 Applicable standards for compact refrigerator products manufactured before July 1, 2001. Compact refrigerator products are not separate product categories under the standards effective January 1, 1993. 14.9AV+391a 11.40AV+391.0 0.53av+391a 0.40av+391.0 11.0AV+160a 10.45AV+152.0 (b) Room air conditioners. Product class 1. Without reverse cycle, with louvered sides, and less than 6,000 Btu/h 16. Casement-Slider *Casement-only and casement-slider room air conditioners are not separate product classes under standards effective January 1, 1990. These units are subject to the applicable standards in classes 1 through 14 based on unit capacity and the presence or absence of louvered sides and a reverse cycle. 1. Furnaces (excluding classes noted below) (percent) 2. Mobile Home Furnaces (percent) (A) Weatherized (outdoor) 4. Boilers (excluding gas steam) (percent) 5. Gas steam boilers (percent) Product class i. Electric, Standard (4.4 ft3 or greater capacity) ii. Electric, Compact (120v) (less than 4.4 ft3 capacity) iii. Electric, Compact (240v) (less than 4.4 ft3 capacity) AFUE 1 Effective (percent) date iv. Gas 78 01/01/92 78 01/01/92 80 01/01/92 75 01/01/92 Product class 1. Gas wall fan type up to 42,000 Btu/hour 2. Gas wall fan type over 42,000 Btu/hour 3. Gas wall gravity type up to 10,000 Btu/hour 4. Gas wall gravity type over 10,000 Btu/hour up to 12,000 Btu/hour 5. Gas wall gravity type over 12,000 Btu/hour up to 15,000 Btu/hour 6. Gas wall gravity type over 15,000 Btu/hour up to 19,000 Btu/hour 7. Gas wall gravity type over 19,000 Btu/hour up to 27,000 Btu/hour 8. Gas wall gravity type over 27,000 Btu/hour up to 46,000 Btu/hour 9. Gas wall gravity type over 46,000 Btu/hour 10. Gas floor up to 37,000 Btu/hour 11. Gas floor over 37,000 Btu/hour 12. Gas room up to 18,000 Btu/hour 13. Gas room over 18,000 Btu/hour up to 20,000 Btu/hour 14. Gas room over 20,000 Btu/hour up to 27,000 Btu/hour 15. Gas room over 27,000 Btu/hour up to 46,000 Btu/hour 16. Gas room over 46,000 Btu/hour Energy factor (lbs/ KWh) 3.01 3.13 2.90 2.67 Annual fuel utilization efficiency, Jan. 1, 1990 (percent) |