Collapse to view only § 430.32 - Energy and water conservation standards and their compliance dates.
- § 430.31 - Purpose and scope.
- § 430.32 - Energy and water conservation standards and their compliance dates.
- § 430.33 - Preemption of State regulations.
- § 430.34 - Energy and water conservation standards amendments
- § 430.35 - Petitions with respect to general service lamps.
- APPENDIX Appendix A - Appendix A to Subpart C of Part 430—Procedures, Interpretations, and Policies for Consideration of New or Revised Energy Conservation Standards and Test Procedures for Consumer Products and Certain Commercial/Industrial Equipment
§ 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 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.).
§ 430.32 - Energy and water conservation standards and their compliance 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). 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.
(1) The following standards apply to products manufactured on or before September 15, 2014, and before the 2029/2030 compliance dates depending on product class (see paragraphs (a)(2) and (3) of this section).
Table 1 to Paragraph
Product class | Equations for maximum energy use
(kWh/yr) | based on AV
(ft 3) | based on av
(L) | 1. Refrigerators and refrigerator-freezers with manual defrost | 7.99AV + 225.0 | 0.282av + 225.0. | 1A. All-refrigerators—manual defrost | 6.79AV + 193.6 | 0.240av + 193.6. | 2. Refrigerator-freezers—partial automatic defrost | 7.99AV + 225.0 | 0.282av + 225.0. | 3. Refrigerator-freezers—automatic defrost with top-mounted freezer without an automatic icemaker | 8.07AV + 233.7 | 0.285av + 233.7. | 3-BI. Built-in refrigerator-freezer—automatic defrost with top-mounted freezer without an automatic icemaker | 9.15AV + 264.9 | 0.323av + 264.9. | 3I. Refrigerator-freezers—automatic defrost with top-mounted freezer with an automatic icemaker without through-the-door ice service | 8.07AV + 317.7 | 0.285av + 317.7. | 3I-BI. Built-in refrigerator-freezers—automatic defrost with top-mounted freezer with an automatic icemaker without through-the-door ice service | 9.15AV + 348.9 | 0.323av + 348.9. | 3A. All-refrigerators—automatic defrost | 7.07AV + 201.6 | 0.250av + 201.6. | 3A-BI. Built-in All-refrigerators—automatic defrost | 8.02AV + 228.5 | 0.283av + 228.5. | 4. Refrigerator-freezers—automatic defrost with side-mounted freezer without an automatic icemaker | 8.51AV + 297.8 | 0.301av + 297.8. | 4-BI. Built-In Refrigerator-freezers—automatic defrost with side-mounted freezer without an automatic icemaker | 10.22AV + 357.4 | 0.361av + 357.4. | 4I. Refrigerator-freezers—automatic defrost with side-mounted freezer with an automatic icemaker without through-the-door ice service | 8.51AV + 381.8 | 0.301av + 381.8. | 4I-BI. Built-In Refrigerator-freezers—automatic defrost with side-mounted freezer with an automatic icemaker without through-the-door ice service | 10.22AV + 441.4.2 | 0.361av + 441.4. | 5. Refrigerator-freezers—automatic defrost with bottom-mounted freezer without an automatic icemaker | 8.85AV + 317.0 | 0.312av + 317.0. | 5-BI. Built-In Refrigerator-freezers—automatic defrost with bottom-mounted freezer without an automatic icemaker | 9.40AV + 336.9 | 0.332av + 336.9. | 5I. Refrigerator-freezers—automatic defrost with bottom-mounted freezer with an automatic icemaker without through-the-door ice service | 8.85AV + 401.0 | 0.312av + 401.0. | 5I-BI. Built-In Refrigerator-freezers—automatic defrost with bottom-mounted freezer with an automatic icemaker without through-the-door ice service | 9.40AV + 420.9 | 0.332av + 420.9. | 5A. Refrigerator-freezer—automatic defrost with bottom-mounted freezer with through-the-door ice service | 9.25AV + 475.4 | 0.327av + 475.4. | 5A-BI. Built-in refrigerator-freezer—automatic defrost with bottom-mounted freezer with through-the-door ice service | 9.83AV + 499.9 | 0.347av + 499.9. | 6. Refrigerator-freezers—automatic defrost with top-mounted freezer with through-the-door ice service | 8.40AV + 385.4 | 0.297av + 385.4. | 7. Refrigerator-freezers—automatic defrost with side-mounted freezer with through-the-door ice service | 8.54AV + 432.8 | 0.302av + 431.1. | 7-BI. Built-In Refrigerator-freezers—automatic defrost with side-mounted freezer with through-the-door ice service | 10.25AV + 502.6 | 0.362av + 502.6. | 8. Upright freezers with manual defrost | 5.57AV + 193.7 | 0.197av + 193.7. | 9. Upright freezers with automatic defrost without an automatic icemaker | 8.62AV + 228.3 | 0.305av + 228.3. | 9I. Upright freezers with automatic defrost with an automatic icemaker | 8.62AV + 312.3 | 0.305av + 312.3. | 9-BI. Built-In Upright freezers with automatic defrost without an automatic icemaker | 9.86AV + 260.9 | 0.348av + 260.6. | 9I-BI. Built-In Upright freezers with automatic defrost with an automatic icemaker | 9.86AV + 344.9 | 0.348av + 344.9. | 10. Chest freezers and all other freezers except compact freezers | 7.29AV + 107.8 | 0.257av + 107.8. | 10A. Chest freezers with automatic defrost | 10.24AV + 148.1 | 0.362av + 148.1. | 11. Compact refrigerators and refrigerator-freezers with manual defrost | 9.03AV + 252.3 | 0.319av + 252.3. | 11A.Compact refrigerators and refrigerator-freezers with manual defrost | 7.84AV + 219.1 | 0.277av + 219.1. | 12. Compact refrigerator-freezers—partial automatic defrost | 5.91AV + 335.8 | 0.209av + 335.8. | 13. Compact refrigerator-freezers—automatic defrost with top-mounted freezer | 11.80AV + 339.2 | 0.417av + 339.2. | 13I. Compact refrigerator-freezers—automatic defrost with top-mounted freezer with an automatic icemaker | 11.80AV + 423.2 | 0.417av + 423.2. | 13A. Compact all-refrigerator—automatic defrost | 9.17AV + 259.3 | 0.324av + 259.3. | 14. Compact refrigerator-freezers—automatic defrost with side-mounted freezer | 6.82AV + 456.9 | 0.241av + 456.9. | 14I. Compact refrigerator-freezers—automatic defrost with side-mounted freezer with an automatic icemaker | 6.82AV + 540.9 | 0.241av + 540.9. | 15. Compact refrigerator-freezers—automatic defrost with bottom-mounted freezer | 11.80AV + 339.2 | 0.417av + 339.2. | 15I. Compact refrigerator-freezers—automatic defrost with bottom-mounted freezer with an automatic icemaker | 11.80AV + 423.2 | 0.417av + 423.2. | 16. Compact upright freezers with manual defrost | 8.65AV + 225.7 | 0.306av + 225.7. | 17. Compact upright freezers with automatic defrost | 10.17AV + 351.9 | 0.359av + 351.9. | 18. Compact chest freezers | 9.25AV + 136.8 | 0.327av + 136.8. |
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AV = Total adjusted volume, expressed in ft 3, as determined in appendices A and B to subpart B of this part.
av = Total adjusted volume, expressed in Liters.
(2) The following standards apply to products manufactured on or after January 31, 2029.
Table 2 to Paragraph (
Product class | Equations for maximum energy use
(kWh/yr) | Based on AV
(ft 3) | Based on av
(L) | 3-BI. Built-in refrigerator-freezer—automatic defrost with top-mounted freezer | 8.24AV + 238.4 + 28I | 0.291av + 238.4 + 28I. | 3A-BI. Built-in All-refrigerators—automatic defrost | (7.22AV + 205.7) * K3ABI | (0.255av + 205.7) * K3ABI. | 4-BI. Built-In Refrigerator-freezers—automatic defrost with side-mounted freezer | (8.79AV + 307.4) * K4BI + 28I | (0.310av + 307.4) * K4BI + 28I. | 5-BI. Built-In Refrigerator-freezers—automatic defrost with bottom-mounted freezer | (8.65AV + 309.9) * K5BI + 28I | (0.305av + 309.9) * K5BI + 28I. | 5A. Refrigerator-freezer—automatic defrost with bottom-mounted freezer with through-the-door ice service | (7.76AV + 351.9) * K5A | (0.274av + 351.9) * K5A. | 5A-BI. Built-in refrigerator-freezer—automatic defrost with bottom-mounted freezer with through-the-door ice service | (8.21AV + 370.7) * K5ABI | (0.290av + 370.7) * K5ABI. | 7-BI. Built-In Refrigerator-freezers—automatic defrost with side-mounted freezer with through-the-door ice service | (8.82AV + 384.1) * K7BI | (0.311av + 384.1) * K7BI. | 8. Upright freezers with manual defrost | 5.57AV + 193.7 | 0.197av + 193.7. | 9-BI. Built-In Upright freezers with automatic defrost | (9.37AV + 247.9) * K9BI + 28I | (0.331av + 247.9) * K9BI + 28I. | 9A-BI. Built-In Upright freezers with automatic defrost with through-the-door ice service | 9.86AV + 288.9 | 0.348av + 288.9. | 10. Chest freezers and all other freezers except compact freezers | 7.29AV + 107.8 | 0.257av + 107.8. | 10A. Chest freezers with automatic defrost | 10.24AV + 148.1 | 0.362av + 148.1. | 11. Compact refrigerator-freezers and refrigerators other than all-refrigerators with manual defrost | 7.68AV + 214.5 | 0.271av + 214.5. | 11A. Compact all-refrigerators—manual defrost | 6.66AV + 186.2 | 0.235av + 186.2. | 12. Compact refrigerator-freezers—partial automatic defrost | (5.32AV + 302.2) * K12 | (0.188av + 302.2) * K12. | 13. Compact refrigerator-freezers—automatic defrost with top-mounted freezer | 10.62AV + 305.3 + 28I | 0.375av + 305.3 + 28I. | 13A. Compact all-refrigerators—automatic defrost | (8.25AV + 233.4) * K13A | (0.291av + 233.4) * K13A. | 14. Compact refrigerator-freezers—automatic defrost with side-mounted freezer | 6.14AV + 411.2 + 28I | 0.217av + 411.2 + 28I. | 15. Compact refrigerator-freezers—automatic defrost with bottom-mounted freezer | 10.62AV + 305.3 + 28I | 0.375av + 305.3 + 28I. | 16. Compact upright freezers with manual defrost | 7.35AV + 191.8 | 0.260av + 191.8. | 17. Compact upright freezers with automatic defrost | 9.15AV + 316.7 | 0.323av + 316.7. | 18. Compact chest freezers | 7.86AV + 107.8 | 0.278av + 107.8. |
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AV = Total adjusted volume, expressed in ft 3, as determined in appendices A and B to subpart B of this part.
av = Total adjusted volume, expressed in Liters.
I = 1 for a product with an automatic icemaker and = 0 for a product without an automatic icemaker. Door Coefficients (
Table 3 to Paragraph (
Door coefficient | Products with a
transparent door | Products without a
transparent door with a door-in-door | Products without a
transparent door or door-in-door with added external doors | K3ABI | 1.10 | 1.0 | 1.0. | K4BI | 1.10 | 1.06 | 1 + 0.02 * (N | K5BI | 1.10 | 1.06 | 1 + 0.02 * (N | K5A | 1.10 | 1.06 | 1 + 0.02 * (N | K5ABI | 1.10 | 1.06 | 1 + 0.02 * (N | K7BI | 1.10 | 1.06 | 1 + 0.02 * (N | K9BI | 1.0 | 1.0 | 1 + 0.02 * (N | K12 | 1.0 | 1.0 | 1 + 0.02 * (N | K13A | 1.10 | 1.0 | 1.0. |
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1 N
2 The maximum N
(3) The following standards apply to products manufactured on or after January 31, 2030.
Table 4 to Paragraph (
Product class | Equations for maximum energy use
(kWh/yr) | Based on AV
(ft 3) | Based on av
(L) | 1. Refrigerator-freezers and refrigerators other than all-refrigerators with manual defrost | 6.79AV + 191.3 | 0.240av + 191.3. | 1A. All-refrigerators—manual defrost | 5.77AV + 164.6 | 0.204av + 164.6. | 2. Refrigerator-freezers—partial automatic defrost | (6.79AV + 191.3) * K2 | (0.240av + 191.3) * K2. | 3. Refrigerator-freezers—automatic defrost with top-mounted freezer | 6.86AV + 198.6 + 28I | 0.242av + 198.6 + 28I. | 3A. All-refrigerators—automatic defrost | (6.01AV + 171.4) * K3A | (0.212av + 171.4) * K3A. | 4. Refrigerator-freezers—automatic defrost with side-mounted freezer | (7.28AV + 254.9) * K4 + 28I | (0.257av + 254.9) * K4 + 28I. | 5. Refrigerator-freezers—automatic defrost with bottom-mounted freezer | (7.61AV + 272.6) * K5 + 28I | (0.269av + 272.6) * K5 + 28I. | 6. Refrigerator-freezers—automatic defrost with top-mounted freezer with through-the-door ice service | 7.14AV + 280.0 | 0.252av + 280.0. | 7. Refrigerator-freezers—automatic defrost with side-mounted freezer with through-the-door ice service | (7.31AV + 322.5) * K7 | (0.258av + 322.5) * K7. | 9. Upright freezers with automatic defrost | (7.33AV + 194.1) * K9 + 28I | (0.259av + 194.1) * K9 + 28I. |
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AV = Total adjusted volume, expressed in ft 3, as determined in appendices A and B to subpart B of this part.
av = Total adjusted volume, expressed in Liters.
I = 1 for a product with an automatic icemaker and = 0 for a product without an automatic icemaker. Door Coefficients (
Table 5 to Paragraph (
Door coefficient | Products with a
transparent door | Products without a
transparent door with a door-in-door | Products without a
transparent door or door-in-door with added external doors | K2 | 1.0 | 1.0 | 1 + 0.02 * (N | K3A | 1.10 | 1.0 | 1.0. | K4 | 1.10 | 1.06 | 1 + 0.02 * (N | K5 | 1.10 | 1.06 | 1 + 0.02 * (N | K7 | 1.10 | 1.06 | 1 + 0.02 * (N | K9 | 1.0 | 1.0 | 1 + 0.02 * (N |
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1 N
2 The maximum N
(b) Room air conditioners. (1) The following standards remain in effect from June 1, 2014, until May 26, 2026:
Table 6 to Paragraph (
Equipment class | Combined energy
efficiency ratio | 1. Without reverse cycle, with louvered sides, and with a certified cooling capacity 1 less than 6,000 Btu/h | 11.0 | 2. Without reverse cycle, with louvered sides and with a certified cooling capacity of 6,000 to 7,999 Btu/h | 11.0 | 3. Without reverse cycle, with louvered sides and with a certified cooling capacity of 8,000 to 13,999 Btu/h | 10.9 | 4. Without reverse cycle, with louvered sides and with a certified cooling capacity of 14,000 to 19,999 Btu/h | 10.7 | 5a. Without reverse cycle, with louvered sides and with a certified cooling capacity of 20,000 Btu/h to 27,999 Btu/h | 9.4 | 5b. Without reverse cycle, with louvered sides and with a certified cooling capacity of 28,000 Btu/h or more | 9.0 | 6. Without reverse cycle, without louvered sides, and with a certified cooling capacity less than 6,000 Btu/h | 10.0 | 7. Without reverse cycle, without louvered sides and with a certified cooling capacity of 6,000 to 7,999 Btu/h | 10.0 | 8a. Without reverse cycle, without louvered sides and with a certified cooling capacity of 8,000 to 10,999 Btu/h | 9.6 | 8b. Without reverse cycle, without louvered sides and with a certified cooling capacity of 11,000 to 13,999 Btu/h | 9.5 | 9. Without reverse cycle, without louvered sides and with a certified cooling capacity of 14,000 to 19,999 Btu/h | 9.3 | 10. Without reverse cycle, without louvered sides and with a certified cooling capacity of 20,000 Btu/h or more | 9.4 | 11. With reverse cycle, with louvered sides, and with a certified cooling capacity less than 20,000 Btu/h | 9.8 | 12. With reverse cycle, without louvered sides, and with a certified cooling capacity less than 14,000 Btu/h | 9.3 | 13. With reverse cycle, with louvered sides, and with a certified cooling capacity of 20,000 Btu/h or more | 9.3 | 14. With reverse cycle, without louvered sides, and with a certified cooling capacity of 14,000 Btu/h or more | 8.7 | 15. Casement-Only | 9.5 | 16. Casement-Slider | 10.4 |
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1 The certified cooling capacity is determined by the manufacturer in accordance with 10 CFR 429.15(a)(3).
(2) The following standards apply to products manufactured starting May 26, 2026:
Table 7 to Paragraph (
Equipment class | Combined energy
efficiency ratio | 1. Without reverse cycle, with louvered sides, and with a certified cooling capacity 1 less than 6,000 Btu/h | 13.1 | 2. Without reverse cycle, with louvered sides and with a certified cooling capacity of 6,000 to 7,900 Btu/h | 13.7 | 3. Without reverse cycle, with louvered sides and with a certified cooling capacity of 8,000 to 13,900 Btu/h | 16.0 | 4. Without reverse cycle, with louvered sides and with a certified cooling capacity of 14,000 to 19,900 Btu/h | 16.0 | 5a. Without reverse cycle, with louvered sides and with a certified cooling capacity of 20,000 Btu/h to 27,900 Btu/h | 13.8 | 5b. Without reverse cycle, with louvered sides and with a certified cooling capacity of 28,000 Btu/h or more | 13.2 | 6. Without reverse cycle, without louvered sides, and with a certified cooling capacity less than 6,000 Btu/h | 12.8 | 7. Without reverse cycle, without louvered sides and with a certified cooling capacity of 6,000 to 7,900 Btu/h | 12.8 | 8a. Without reverse cycle, without louvered sides and with a certified cooling capacity of 8,000 to 10,900 Btu/h | 14.1 | 8b. Without reverse cycle, without louvered sides and with a certified cooling capacity of 11,000 to 13,900 Btu/h | 13.9 | 9. Without reverse cycle, without louvered sides and with a certified cooling capacity of 14,000 to 19,900 Btu/h | 13.7 | 10. Without reverse cycle, without louvered sides and with a certified cooling capacity of 20,000 Btu/h or more | 13.8 | 11. With reverse cycle, with louvered sides, and with a certified cooling capacity less than 20,000 Btu/h | 14.4 | 12. With reverse cycle, without louvered sides, and with a certified cooling capacity less than 14,000 Btu/h | 13.7 | 13. With reverse cycle, with louvered sides, and with a certified cooling capacity of 20,000 Btu/h or more | 13.7 | 14. With reverse cycle, without louvered sides, and with a certified cooling capacity of 14,000 Btu/h or more | 12.8 | 15. Casement-Only | 13.9 | 16. Casement-Slider | 15.3 |
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1 The certified cooling capacity is determined by the manufacturer in accordance with 10 CFR 429.15(a)(3).
(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.
(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:
Product class | Seasonal
energy efficiency ratio (SEER) | Heating
seasonal performance factor (HSPF) | (i) Split systems—air conditioners | 13 | (ii) Split systems—heat pumps | 14 | 8.2 | (iii) Single package units—air conditioners | 14 | (iv) Single package units—heat pumps | 14 | 8.0 | (v) Small-duct, high-velocity systems | 12 | 7.2 | (vi)(A) Space-constrained products—air conditioners | 12 | (vi)(B) Space-constrained products—heat pumps | 12 | 7.4 |
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(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—air 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.
(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—air conditioners and single-package units—air 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 °F dry bulb outdoor temperature) not less than the following:
Product class | Energy
efficiency ratio (EER) | (i) Split systems—air conditioners with rated cooling capacity less than 45,000 Btu/hr | 12.2 | (ii) Split systems—air conditioners with rated cooling capacity equal to or greater than 45,000 Btu/hr | 11.7 | (iii) Single-package units—air conditioners | 11.0 |
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(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.
(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:
Product class | Average off mode power
consumption P (watts) | (i) Split-system air conditioners | 30 | (ii) Split-system heat pumps | 33 | (iii) Single-package air conditioners | 30 | (iv) Single-package heat pumps | 33 | (v) Small-duct, high-velocity systems | 30 | (vi) Space-constrained air conditioners | 30 | (vii) Space-constrained heat pumps | 33 |
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(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:
Product class | Seasonal
energy efficiency ratio 2 (SEER2) | Heating
seasonal performance factor 2 (HSPF2) | (i)(A) Split systems—air conditioners with a certified cooling capacity less than 45,000 Btu/hr | 13.4 | (i)(B) Split systems—air conditioners with a certified cooling capacity equal to or greater than 45,000 Btu/hr | 13.4 | (ii) Split systems—heat pumps | 14.3 | 7.5 | (iii) Single-package units—air conditioners | 13.4 | (iv) Single-package units—heat pumps | 13.4 | 6.7 | (v) Small-duct, high-velocity systems | 12 | 6.1 | (vi)(A) Space-constrained products—air conditioners | 11.7 | (vi)(B) Space-constrained products—heat pumps | 11.9 | 6.3 |
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(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—air conditioners and single-package units—air 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:
Product class | Southeast * | Southwest ** | SEER2 | SEER2 | EER2 *** | (i)(A) Split-systems—air conditioners with a certified cooling capacity less than 45,000 Btu/hr | 14.3 | 14.3 | 11.7/9.8 † | (i)(B) Split-systems—air conditioners with a certified cooling capacity equal to or greater than 45,000 Btu/hr | 13.8 | 13.8 | 11.2/9.8 †† | (iii) Single-package units—air conditioners | 10.6 |
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* “Southeast” 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.
** “Southwest” includes the States of Arizona, California, Nevada, and New Mexico.
*** EER refers to the energy efficiency ratio at a standard rating of 95 °F dry bulb outdoor temperature.
† 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.
†† 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.
(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).
(d) Water Heaters. (1) The uniform energy factor of water heaters manufactured May 6, 2029 shall not be less than the following:
Product class | Rated storage volume
and input rating ( | Draw pattern | Uniform energy factor 1 | Gas-fired Storage Water Heater | ≥20 gal and ≤55 gal | Very Small | 0.3456 − (0.0020 × V | Low | 0.5982 − (0.0019 × V | Medium | 0.6483 − (0.0017 × V | High | 0.6920 − (0.0013 × V | >55 gal and ≤100 gal | Very Small | 0.6470 − (0.0006 × V | Low | 0.7689 − (0.0005 × V | Medium | 0.7897 − (0.0004 × V | High | 0.8072 − (0.0003 × V | Oil-fired Storage Water Heater | ≤50 gal | Very Small | 0.2509 − (0.0012 × V | Low | 0.5330 − (0.0016 × V | Medium | 0.6078 − (0.0016 × V | High | 0.6815 − (0.0014 × V | Electric Storage Water Heaters | ≥20 gal and ≤55 gal | Very Small | 0.8808 − (0.0008 × V | Low | 0.9254 − (0.0003 × V | Medium | 0.9307 − (0.0002 × V | High | 0.9349 − (0.0001 × V | >55 gal and ≤120 gal | Very Small | 1.9236 − (0.0011 × V | Low | 2.0440 − (0.0011 × V | Medium | 2.1171 − (0.0011 × V | High | 2.2418 − (0.0011 × V | Tabletop Water Heater | ≥20 gal and ≤120 gal | Very Small | 0.6323 − (0.0058 × V | Low | 0.9188 − (0.0031 × V | Medium | 0.9577 − (0.0023 × V | High | 0.9884 − (0.0016 × V | Instantaneous Gas-fired Water Heater | <2 gal and >50,000 Btu/h | Very Small | 0.80 | Low | 0.81 | Medium | 0.81 | High | 0.81 | Instantaneous Electric Water Heater | <2 gal | Very Small | 0.91 | Low | 0.91 | Medium | 0.91 | High | 0.92 | Grid-enabled Water Heater | >75 gal | Very Small | 1.0136 − (0.0028 × V | Low | 0.9984 − (0.0014 × V | Medium | 0.9853 − (0.0010 × V | High | 0.9720 − (0.0007 × V |
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1 V
(2) The uniform energy factor of water heaters manufactured on or after May 6, 2029 shall not be less than the following:
Product class | Rated storage volume
and input rating ( | Draw pattern | Uniform energy factor 1 | Gas-fired Storage Water Heater | <20 gal | Very Small | 0.2062 − (0.0020 × V | Low | 0.4893 − (0.0027 × V | Medium | 0.5758 − (0.0023 × V | High | 0.6586 − (0.0020 × V | ≥20 gal and ≤55 gal | Very Small | 0.3925 − (0.0020 × V | Low | 0.6451 − (0.0019 × V | Medium | 0.7046 − (0.0017 × V | High | 0.7424 − (0.0013 × V | >55 gal and ≤100 gal | Very Small | 0.6470 − (0.0006 × V | Low | 0.7689 − (0.0005 × V | Medium | 0.7897 − (0.0004 × V | High | 0.8072 − (0.0003 × V | >100 gal | Very Small | 0.1482 − (0.0007 × V | Low | 0.4342 − (0.0017 × V | Medium | 0.5596 − (0.0020 × V | High | 0.6658 − (0.0019 × V | Oil-fired Storage Water Heater | ≤50 gal | Very Small | 0.2909 − (0.0012 × V | Low | 0.5730 − (0.0016 × V | Medium | 0.6478 − (0.0016 × V | High | 0.7215 − (0.0014 × V | > 50 gal | Very Small | 0.1580 − (0.0009 × V | Low | 0.4390 − (0.0020 × V | Medium | 0.5389 − (0.0021 × V | High | 0.6172 − (0.0018 × V | Very Small Electric Storage Water Heater | < 20 gal | Very Small | 0.5925 − (0.0059 × V | Low | 0.8642 − (0.0030 × V | Medium | 0.9096 − (0.0020 × V | High | 0.9430 − (0.0012 × V | Small Electric Storage Water Heater | ≥20 gal and ≤35 gal | Very Small | 0.8808 − (0.0008 × V | Low | 0.9254 − (0.0003 × V | Electric Storage Water Heaters | >20 and ≤55 gal (excluding small electric storage water heaters) | Very Small | 2.30 | Low | 2.30 | Medium | 2.30 | High | 2.30 | >55 gal and ≤120 gal | Very Small | 2.50 | Low | 2.50 | Medium | 2.50 | High | 2.50 | >120 gal | Very Small | 0.3574 − (0.0012 × V | Low | 0.7897 − (0.0019 × V | Medium | 0.8884 − (0.0017 × V | High | 0.9575 − (0.0013 × V | Tabletop Water Heater | <20 gal | Very Small | 0.5925 − (0.0059 × V | Low | 0.8642 − (0.0030 × V | ≥20 gal | Very Small | 0.6323 − (0.0058 × V | Low | 0.9188 − (0.0031 × V | Instantaneous Oil-fired Water Heater | <2 gal and ≤210,000 Btu/h | Very Small | 0.61 | Low | 0.61 | Medium | 0.61 | High | 0.61 | ≥2 gal and ≤210,000 Btu/h | Very Small | 0.2780 − (0.0022 × V | Low | 0.5151 − (0.0023 × V | Medium | 0.5687 − (0.0021 × V | High | 0.6147 − (0.0017 × V | Instantaneous Electric Water Heater | <2 gal | Very Small | 0.91 | Low | 0.91 | Medium | 0.91 | High | 0.92 | ≥2 gal | Very Small | 0.8086 − (0.0050 × V | Low | 0.9123 − (0.0020 × V | Medium | 0.9252 − (0.0015 × V | High | 0.9350 − (0.0011 × V | Grid-Enabled Water Heater | >75 gal | Very Small | 1.0136 − (0.0028 × V | Low | 0.9984 − (0.0014 × V | Medium | 0.9853 − (0.0010 × V | High | 0.9720 − (0.0007 × V |
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1 V
(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.
(e) Furnaces and boilers—(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:
Product class | AFUE
(percent) 1 | (A) Furnaces (excluding classes noted below) | 78 | (B) Mobile Home furnaces | 75 | (C) Small furnaces (other than those designed solely for installation in mobile homes) having an input rate of less than 45,000 Btu/hr | ( | 78 | ( | 78 |
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1 Annual Fuel Utilization Efficiency, as determined in § 430.23(n)(2) of this part.
(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:
Product class | AFUE
(percent) 1 | (A) Non-weatherized gas furnaces (not including mobile home furnaces) | 80.0 | (B) Mobile home gas furnaces | 80.0 | (C) Non-weatherized oil-fired furnaces (not including mobile home furnaces) | 83.0 | (D) Mobile home oil-fired furnaces | 75.0 | (E) Weatherized gas furnaces | 81.0 | (F) Weatherized oil-fired furnaces | 78.0 | (G) Electric furnaces | 78.0 |
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1 Annual Fuel Utilization Efficiency, as determined in § 430.23(n)(2).
(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:
Product class | AFUE
(percent) 1 | (A) Non-weatherized gas furnaces (not including mobile home gas furnaces) | 95.0 | (B) Mobile home gas furnaces | 95.0 |
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1 Annual Fuel Utilization Efficiency, as determined in § 430.23(n)(2).
(iv) Furnaces manufactured on or after May 1, 2013, shall have an electrical standby mode power consumption (P
Product class | Maximum standby mode electrical power consumption, P | Maximum off mode electrical power consumption, P | (A) Non-weatherized oil-fired furnaces (including mobile home furnaces) | 11 | 11 | (B) Electric furnaces | 10 | 10 |
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(2) Boilers. (i) The AFUE of residential boilers manufactured before September 1, 2012, shall not be less than the following:
Product class | AFUE 1 (percent) | (A) Boilers (excluding gas steam) | 80 | (B) Gas steam boilers | 75 |
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1 Annual Fuel Utilization Efficiency, as determined in § 430.22(n)(2) of this part.
(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:
Product class | AFUE
1 (percent) | Design requirements | (A) Gas-fired hot water boiler | 82 | Constant burning pilot not permitted.
Automatic means for adjusting water temperature required (except for boilers equipped with tankless domestic water heating coils). | (B) Gas-fired steam boiler | 80 | Constant burning pilot not permitted. | (C) Oil-fired hot water boiler | 84 | Automatic means for adjusting temperature required (except for boilers equipped with tankless domestic water heating coils). | (D) Oil-fired steam boiler | 82 | None. | (E) Electric hot water boiler | None | Automatic means for adjusting temperature required (except for boilers equipped with tankless domestic water heating coils). |
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1 Annual Fuel Utilization Efficiency, as determined in § 430.22(n)(2) of this part.
(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:
Product class | AFUE
1 (percent) | Design requirements | ( | 84 | Constant-burning pilot not permitted. Automatic means for adjusting water temperature required (except for boilers equipped with tankless domestic water heating coils). | ( | 82 | Constant-burning pilot not permitted. | ( | 86 | Automatic means for adjusting temperature required (except for boilers equipped with tankless domestic water heating coils). | ( | 85 | None. | ( | None | Automatic means for adjusting temperature required (except for boilers equipped with tankless domestic water heating coils). | ( | None | None. |
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1 Annual Fuel Utilization Efficiency, as determined in § 430.23(n)(2) of this part.
(B) Except as provided in paragraph (e)(2)(v) of this section, the standby mode power consumption (P
Product class | P (watts) | P (watts) | ( | 9 | 9 | ( | 8 | 8 | ( | 11 | 11 | ( | 11 | 11 | ( | 8 | 8 | ( | 8 | 8 |
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(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.
(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.
(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.
(D) A boiler for which an automatic means for adjusting water temperature is required shall be operable only when the automatic means is installed.
(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.
(f) Dishwashers. (1) All dishwashers manufactured on or after May 30, 2013, shall meet the following standard—
(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 § 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.
(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 § 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.
(2) All dishwashers manufactured on or after April 23, 2027, shall not exceed the following standard—
Product class | Estimated annual energy use
(kWh/year) | Maximum
per-cycle water consumption (gal/cycle) | (i) Standard-size 1 (≥8 place settings plus 6 serving pieces) 2 | 223 | 3.3 | (ii) Compact-size (<8 place settings plus 6 serving pieces) 2 | 174 | 3.1 |
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1 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.
2 Place settings are as specified in AHAM DW-1-2020 (incorporated by reference, see § 430.3) and the test load is as specified in section 2.4 of appendix C2 to subpart B of this part.
(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.
(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:
Product class | Integrated
modified energy factor (cu.ft./kWh/cycle) | Integrated
water factor (gal/cycle/cu.ft.) | (i) Top-loading, Compact (less than 1.6 ft 3 capacity) | 1.15 | 12.0 | (ii) Top-loading, Standard (1.6 ft 3 or greater capacity) | 1.57 | 6.5 | (iii) Front-loading, Compact (less than 1.6 ft 3 capacity) | 1.13 | 8.3 | (iv) Front-loading, Standard (1.6 ft 3 or greater capacity) | 1.84 | 4.7 |
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(2) Clothes washers manufactured on or after March 1, 2028:
(i) Shall have an Energy Efficiency Ratio and a Water Efficiency Ratio no less than:
Product class | Energy efficiency ratio
(lb/kWh/cycle) | Water efficiency ratio
(lb/gal/cycle) | (A) Automatic Clothes Washers: | ( | 3.79 | 0.29 | ( | 4.27 | 0.57 | ( | 5.02 | 0.71 | ( | 5.52 | 0.77 | (B) Semi-Automatic Clothes Washers | 2.12 | 0.27 |
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1 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.
2 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 3 and less than 3.0 ft 3 with an average cycle time of less than 45 minutes.
3 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.
(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.
(h) Clothes dryers. (1) Gas clothes dryers manufactured after January 1, 1988 shall not be equipped with a constant burning pilot.
(2) Clothes dryers manufactured on or after May 14, 1994 and before January 1, 2015, shall have an energy factor no less than:
Product class | Energy
factor (lbs/kWh) | i. Electric, Standard (4.4 ft 3 or greater capacity) | 3.01 | ii. Electric, Compact (120V) (less than 4.4 ft 3 capacity) | 3.13 | iii. Electric, Compact (240V) (less than 4.4 ft 3 capacity) | 2.90 | iv. Gas | 2.67 |
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(3) Clothes dryers manufactured on or after January 1, 2015, shall have a combined energy factor no less than:
Product class | Combined energy factor
(lbs/kWh) | (i) Vented Electric, Standard (4.4 ft 3 or greater capacity) | 3.73 | (ii) Vented Electric, Compact (120V) (less than 4.4 ft 3 capacity) | 3.61 | (iii) Vented Electric, Compact (240V) (less than 4.4 ft 3 capacity) | 3.27 | (iv) Vented Gas | 3.30 | (v) Ventless Electric, Compact (240V) (less than 4.4 ft 3 capacity) | 2.55 | (vi) Ventless Electric, Combination Washer-Dryer | 2.08 |
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(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:
Product class | CEF (lb/kWh) | (i) Electric, Standard (4.4 ft | 3.93 | (ii) Electric, Compact (120V) (less than 4.4 ft | 4.33 | (iii) Vented Electric, Compact (240V) (less than 4.4 ft | 3.57 | (iv) Vented Gas, Standard (4.4 ft | 3.48 | (v) Vented Gas, Compact (less than 4.4 ft | 2.02 | (vi) Ventless Electric, Compact (240V) (less than 4.4 ft | 2.68 | (vii) Ventless Electric, Combination Washer-Dryer | 2.33 |
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* 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.
** 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.
(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:
Product class | Annual fuel utilization efficiency, Jan. 1, 1990 (percent) | 1. Gas wall fan type up to 42,000 Btu/h | 73 | 2. Gas wall fan type over 42,000 Btu/h | 74 | 3. Gas wall gravity type up to 10,000 Btu/h | 59 | 4. Gas wall gravity type over 10,000 Btu/h up to 12, 000 Btu/h | 60 | 5. Gas wall gravity type over 12,000 Btu/h up to 15,000 Btu/h | 61 | 6. Gas wall gravity type over 15,000 Btu/h up to 19,000 Btu/h | 62 | 7. Gas wall gravity type over 19,000 Btu/h and up to 27,000 Btu/h | 63 | 8. Gas wall gravity type over 27,000 Btu/h and up to 46,000 Btu/h | 64 | 9. Gas wall gravity type over 46,000 Btu/h | 65 | 10. Gas floor up to 37,000 Btu/h | 56 | 11. Gas floor over 37,000 Btu/h | 57 | 12. Gas room up to 18,000 Btu/h | 57 | 13. Gas room over 18,000 Btu/h up to 20,000 Btu/h | 58 | 14. Gas room over 20,000 Btu/h up to 27,000 Btu/h | 63 | 15. Gas room over 27,000 Btu/h up to 46,000 Btu/h | 64 | 16. Gas room over 46,000 Btu/h | 65 |
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(2) Vented home heating equipment manufactured on or after April 16, 2013, shall have an annual fuel utilization efficiency no less than:
Product class | Annual fuel utilization efficiency, April 16, 2013 (percent) | Gas wall fan type up to 42,000 Btu/h | 75 | Gas wall fan type over 42,000 Btu/h | 76 | Gas wall gravity type up to 27,000 Btu/h | 65 | Gas wall gravity type over 27,000 Btu/h up to 46,000 Btu/h | 66 | Gas wall gravity type over 46,000 Btu/h | 67 | Gas floor up to 37,000 Btu/h | 57 | Gas floor over 37,000 Btu/h | 58 | Gas room up to 20,000 Btu/h | 61 | Gas room over 20,000 Btu/h up to 27,000 Btu/h | 66 | Gas room over 27,000 Btu/h up to 46,000 Btu/h | 67 | Gas room over 46,000 Btu/h | 68 |
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(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.
(ii) Gas portable indoor conventional cooking tops, manufactured on or after April 9, 2012, shall not be equipped with a constant burning pilot light.
(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:
Product class | Maximum integrated annual energy consumption
(IAEC) | (A) Electric Smooth Element Standalone Cooking Tops | 207 kWh/year. | (B) Electric Smooth Element Cooking Top Component of Combined Cooking Products | 207 kWh/year. | (C) Gas Standalone Cooking Tops | 1,770 kBtu/year. | (D) Gas Cooking Top Component of Combined Cooking Products | 1,770 kBtu/year. |
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(2) Conventional ovens. The control system of a conventional oven shall:
(i) Not be equipped with a constant burning pilot light, for gas ovens manufactured on or after April 9, 2012; and
(ii) Not be equipped with a linear power supply, for electric and gas ovens manufactured on or after January 31, 2028.
(3) Microwave ovens.
(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.
(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.
(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%.
(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:
where Q(l) Television sets. [Reserved]
(m) Fluorescent lamp ballasts—(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,
(i) Designed and marketed—
(A) To operate at nominal input voltages at or between 120 and 277 volts;
(B) To operate with an input current frequency of 60 Hertz; and
(C) For use in connection with fluorescent lamps (as defined in § 430.2)
(ii) Must have—
(A) A power factor of:
(1) 0.9 or greater for ballasts that are not residential ballasts; or
(2) 0.5 or greater for residential ballasts; and
(B) A ballast luminous efficiency not less than the following:
BLE = A/(1 + B × average total lamp arc power ^ −C) Where A, B, and C are as follows: | Description | A | B | C | Instant start and rapid start ballasts (not classified as residential ballasts) that are designed and marketed to operate: | 4-foot medium bipin lamps; | 0.993 | 0.27 | 0.25 | 2-foot U-shaped lamps; or | 8-foot slimline lamps. | Programmed start ballasts (not classified as residential ballasts) that are designed and marketed to operate: | 4-foot medium bipin lamps; | 0.993 | 0.51 | 0.37 | 2-foot U-shaped lamps; | 4-foot miniature bipin standard output lamps; or | 4-foot miniature bipin high output lamps. | Instant start and rapid start ballasts (not classified as sign ballasts) that are designed and marketed to operate 8-foot high output lamps | 0.993 | 0.38 | 0.25 | Programmed start ballasts (not classified as sign ballasts) that are designed and marketed to operate 8-foot high output lamps | 0.973 | 0.70 | 0.37 | Sign ballasts that are designed and marketed to operate 8-foot high output lamps | 0.993 | 0.47 | 0.25 | Instant start and rapid start residential ballasts that are designed and marketed to operate: | 4-foot medium bipin lamps; | 0.993 | 0.41 | 0.25 | 2-foot U-shaped lamps; or | 8-foot slimline lamps. | Programmed start residential ballasts that are designed and marketed to operate: | 4-foot medium bipin lamps or | 0.973 | 0.71 | 0.37 | 2-foot U-shaped lamps. |
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(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
(i) Designed and marketed—
(A) To operate at nominal input voltages at or between 120 and 277 volts;
(B) To operate with an input current frequency of 60 Hertz; and
(C) For use in connection with fluorescent lamps (as defined in § 430.2)
(ii) Must have—
(A) A power factor of:
(1) 0.9 or greater for ballasts that are not residential ballasts; or
(2) 0.5 or greater for residential ballasts; and
(B) A ballast luminous efficiency not less than the following:
Designed and marketed for operation of a maximum of | Nominal input
voltage | Total nominal lamp watts | Ballast luminous efficiency | Low frequency ballasts | High frequency ballasts | One F34T12 lamp | 120/277 | 34 | 0.777 | 0.778 | Two F34T12 lamps | 120/277 | 68 | 0.804 | 0.805 | Two F96T12/ES lamps | 120/277 | 120 | 0.876 | 0.884 | Two F96T12HO/ES lamps | 120/277 | 190 | 0.711 | 0.713 |
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(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:
(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;
(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
(iii) A programmed start ballast that operates 4-foot medium bipin T8 lamps and delivers on average less than 140 milliamperes to each lamp.
(4) For the purposes of this paragraph (m), the definitions found in appendix Q of subpart B of this part apply.
(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:
Lamp type | Nominal lamp watts * | Minimum color rendering index | Effective date | (i) 4-foot medium bipin | >35 W
≤35 W | 69
45 | Nov. 1, 1995.
Nov. 1, 1995. | (ii) 2-foot U-shaped | >35 W
≤35 W | 69
45 | Nov. 1, 1995.
Nov. 1, 1995. | (iii) 8-foot slimline | >65 W
≤65 W | 69
45 | May 1, 1994.
May 1, 1994. | (iv) 8-foot high output | >100 W
≤100 W | 69
45 | May 1, 1994.
May 1, 1994. |
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* Nominal lamp watts means the wattage at which a fluorescent lamp is designed to operate. 42 U.S.C. 6291(29)(H)
(2) The standards described in paragraph (n)(1) of this section do not apply to:
(i) Any 4-foot medium bipin lamp or 2-foot U-shaped lamp with a rated wattage less than 28 watts;
(ii) Any 8-foot high output lamp not defined in ANSI C78.81-2010 (incorporated by reference; see § 430.3) or related supplements, or not 0.800 nominal amperes; or
(iii) Any 8-foot slimline lamp not defined in ANSI C78.3 (incorporated by reference; see § 430.3).
(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:
Lamp type | Correlated color
temperature | Minimum
average lamp efficacy lm/W | (i) 4-foot medium bipin lamps (straight-shaped lamp with medium bipin base, nominal overall length of 48 inches, and rated wattage of 25 or more) | ≤4,500K
>4,500K and ≤7,000K | 92.4
88.7 | (ii) 2-foot U-shaped lamps (U-shaped lamp with medium bipin base, nominal overall length between 22 and 25 inches, and rated wattage of 25 or more) | ≤4,500K
>4,500K and ≤7,000K | 85.0
83.3 | (iii) 8-foot slimline lamps (instant start lamp with single pin base, nominal overall length of 96 inches, and rated wattage of 49 or more) | ≤4,500K
>4,500K and ≤7,000K | 97.0
93.0 | (iv) 8-foot high output lamps (rapid start lamp with recessed double contact base, nominal overall length of 96 inches) | ≤4,500K
>4,500K and ≤7,000K | 92.0
88.0 | (v) 4-foot miniature bipin standard output lamps (straight-shaped lamp with miniature bipin base, nominal overall length between 45 and 48 inches, and rated wattage of 25 or more) | ≤4,500K
>4,500K and ≤7,000K | 95.0
89.3 | (vi) 4-foot miniature bipin high output lamps (straight-shaped lamp with miniature bipin base, nominal overall length between 45 and 48 inches, and rated wattage of 44 or more) | ≤4,500K
>4,500K and ≤7,000K | 82.7
76.9 |
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For paragraphs (n)(3)(i) through (vi), rated wattage is defined with respect to fluorescent lamps and general service fluorescent lamps in § 430.2.
(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:
Rated wattage | Lamp spectrum | Lamp diameter inches | Rated voltage of lamp | Minimum
average lamp efficacy lm/W | (i) 40-205 | Standard Spectrum | >2.5 | ≥125 V
<125 V | 6.8*P
0.27 5.9*P 0.27 | ≤2.5 | ≥125 V
<125 V | 5.7*P
0.27 5.0*P 0.27 | (ii) 40-205 | Modified Spectrum | >2.5 | ≥125 V
<125 V | 5.8*P
0.27 5.0*P 0.27 | ≤2.5 | ≥125 V
<125 V | 4.9*P
0.27 4.2*P 0.27 |
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P is equal to the rated wattage, in watts. Rated wattage is defined with respect to incandescent reflector lamps in § 430.2.
Note 3 to paragraph (Standard Spectrum means any incandescent reflector lamp that does not meet the definition of modified spectrum in § 430.2.
(5) The standards specified in this section do not apply to the following types of incandescent reflector lamps:
(i) Lamps rated at 50 watts or less that are ER30, BR30, BR40, or ER40 lamps;
(ii) Lamps rated at 65 watts that are BR30, BR40, or ER40 lamps; or
(iii) R20 incandescent reflector lamps rated 45 watts or less.
(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:
Faucet type | Maximum flow rate
(gpm (L/min)) or (gal/cycle (L/cycle)) | Lavatory faucets | 2.2 gpm (8.3 L/min) 1 2 | Lavatory replacement aerators | 2.2 gpm (8.3 L/min) | Kitchen faucets | 2.2 gpm (8.3 L/min) | Kitchen replacement aerators | 2.2 gpm (8.3 L/min) | Metering faucets | 0.25 gal/cycle (0.95 L/cycle) 3 4 |
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1 Sprayheads with independently-controlled orifices and manual controls.
The maximum flow rate of each orifice that manually turns on or off shall not exceed the maximum flow rate for a lavatory faucet.
2 Sprayheads with collectively controlled orifices and manual controls.
The 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)).
3 Sprayheads with independently controlled orifices and metered controls.
The 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.
4 Sprayheads with collectively-controlled orifices and metered controls.
The 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)).
(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.
(q) Water closets. The maximum water use allowed in gallons per flush for any of the following water closets is as follows:
Water closet type | Maximum flush rate
(gpf (Lpf)) | Manufactured after January 1, 1994 | Manufactured after January 1, 1997 | (1) Gravity flush tank water closet | 1.6 (6.0) | 1.6 (6.0) | (2) Flushometer tank water closet | 1.6 (6.0) | 1.6 (6.0) | (3) Electromechanical hydraulic water closet | 1.6 (6.0) | 1.6 (6.0) | (4) Blowout bowl water closet | 3.5 (13.2) | 3.5 (13.2) | (5) Flushometer valve water closets, other than those with blowout bowls | 1.6 (6.0) |
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(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:
(1) The maximum flow rate for a urinal and
(2) The length of the trough-type urinal in inches (millimeter) divided by 16 inches (406 millimeters).
(s) Ceiling fans and ceiling fan light kits. (1) All ceiling fans manufactured on or after January 1, 2007, shall have the following features:
(i) Fan speed controls separate from any lighting controls;
(ii) Adjustable speed controls (either more than 1 speed or variable speed);
(iii) The capability of reversible fan action, except for—
(A) Fans sold for industrial applications;
(B) Fans sold for outdoor applications; and
(C) Cases in which safety standards would be violated by the use of the reversible mode.
(2)(i) Ceiling fans manufactured on or after January 21, 2020, shall meet the requirements shows in the table:
Product class as
defined in Appendix U | Minimum
efficiency (CFM/W) 1 | Very small-diameter (VSD) | D ≤ 12 in.: 21. | D > 12 in.: 3.16 D-17.04. | Standard | 0.65 D + 38.03. | Hugger | 0.29 D + 34.46. | High-speed small-diameter (HSSD) | 4.16 D + 0.02. |
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1 D is the ceiling fan's blade span, in inches, as determined in Appendix U of this part.
(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 -
(A) 1.00 at high speed; and
(B) 1.31 at 40 percent speed or the nearest speed that is not less than 40 percent speed.
(iii) The provisions in this appendix apply to ceiling fans except:
(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;
(B) Centrifugal ceiling fans, as defined in Appendix U of this part;
(C) Belt-driven ceiling fans, as defined in Appendix U of this part;
(D) Oscillating ceiling fans, as defined in Appendix U of this part; and
(E) Highly-decorative ceiling fans, as defined in Appendix U of this part.
(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—
(i) Be compact fluorescent lamps that meet or exceed the following requirements or be as described in paragraph (s)(3)(ii) of this section:
Factor | Requirements | Rated Wattage (Watts) & Configuration 1 | Minimum Initial Lamp Efficacy (lumens per watt) 2 | Lamp Power <15 | 45.0 | Lamp Power ≥15 | 60.0 | Lamp Power <15 | 40.0 | 15≤Lamp Power <19 | 48.0 | 19≤Lamp Power <25 | 50.0 | Lamp Power ≥25 | 55.0 | Lamp Power <20 | 33.0 | Lamp Power ≥20 | 40.0 | Lumen Maintenance at 1,000 hours | ≥ 90.0% | Lumen Maintenance at 40 Percent of Lifetime | ≥ 80.0% | Rapid Cycle Stress Test | Each lamp must be cycled once for every 2 hours of lifetime. At least 5 lamps must meet or exceed the minimum number of cycles. | Lifetime | ≥ 6,000 hours for the sample of lamps. |
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1 Use rated wattage to determine the appropriate minimum efficacy requirements in this table.
2 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.
(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.
(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:
Factor | Requirement | System Efficacy Per Lamp Ballast Platform in Lumens Per Watt (lm/w) | ≥50 lm/w for all lamps below 30 total listed lamp watts. | ≥60 lm/w for all lamps that are ≤ 24 inches and | ≥30 total listed lamp watts. | ≥70 lm/w for all lamps that are > 24 inches and | ≥30 total listed lamp watts. |
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(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.
(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:
Lumens 1 | Minimum required efficacy
(lm/W) | (i) <120 | 50. | (ii) ≥120 | (74.0−29.42 × 0.9983 lumens). |
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1 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.
(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:
Lumen Maintenance at 1,000 hours | ≥90.0%. | Lumen Maintenance at 40 Percent of Lifetime | ≥80.0%. | Rapid Cycle Stress Test | Each lamp must be cycled once for every 2 hours of lifetime of compact fluorescent lamp as defined in § 430.2. At least 5 lamps must meet or exceed the minimum number of cycles. | Lifetime | ≥6,000 hours for the sample of lamps. |
(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.
(t) Torchieres. A torchiere manufactured on or after January 1, 2006 shall:
(1) Consume not more than 190 watts of power; and
(2) Not be capable of operating with lamps that total more than 190 watts.
(u) [Reserved]
(v) Dehumidifiers. (1) Dehumidifiers manufactured on or after October 1, 2012, shall have an energy factor that meets or exceeds the following values:
Product capacity (pints/day) | Minimum energy factor (liters/kWh) | Up to 35.00 | 1.35 | 35.01-45.00 | 1.50 | 45.01-54.00 | 1.60 | 54.01-75.00 | 1.70 | 75.01 or more | 2.5 |
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(2) Dehumidifiers manufactured on or after June 13, 2019, shall have an integrated energy factor that meets or exceeds the following values:
Portable dehumidifier product capacity
(pints/day) | Minimum
integrated energy factor (liters/kWh) | 25.00 or less | 1.30 | 25.01-50.00 | 1.60 | 50.01 or more | 2.80 | Whole-home dehumidifier product case volume (cubic feet) | 8.0 or less | 1.77 | More than 8.0 | 2.41 |
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(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:
Active mode | Nameplate output | Required efficiency (decimal equivalent of a percentage) | Less than 1 watt | 0.5 times the Nameplate output. | From 1 watt to not more than 51 watts | The sum of 0.09 times the Natural Logarithm of the Nameplate Output and 0.5. | Greater than 51 watts | 0.85. | No-load mode | Nameplate output | Maximum consumption | Not more than 250 watts | 0.5 watts. |
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(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:
(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:
Class A EPS | Non-Class A EPS | Direct Operation EPS | Level VI: 10 CFR 430.32(w)(1)(ii) | Level VI: 10 CFR 430.32(w)(1)(ii). | Indirect Operation EPS | Level IV: 10 CFR 430.32(w)(1)(i) | No Standards. |
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(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—
(i) Is manufactured during the period beginning on February 10, 2016, and ending on February 10, 2020;
(ii) Is marked in accordance with the External Power Supply International Efficiency Marking Protocol, as in effect on February 10, 2016;
(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
(iv) Is made available by the manufacturer only as a service part or a spare part for an end-use product that—
(A) Constitutes the primary load; and
(B) Was manufactured before February 10, 2016.
(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.
(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 § 430.3), published by the U.S. Department of Energy.
(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—
(i) Is an AC-to-AC external power supply;
(ii) Has a nameplate output of 20 watts or more;
(iii) Is certified to the Secretary as being designed to be connected to a security or life safety alarm or surveillance system component; and
(iv) On establishment within the External Power Supply International Efficiency Marking Protocol, as referenced in the “Energy Star Program Requirements for Single Voltage External Ac-Dc and Ac-Ac Power Supplies” (incorporated by reference, see § 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.
(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)).
(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.
(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.
(2) Subject to the sales prohibition in paragraph (dd) of this section, each intermediate base incandescent lamp shall not exceed 40 rated watts.
(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:
Table 1—Energy Conservation Standards for Covered Residential Furnace Fans*
Product class | FER ** (Watts/1000 cfm) | Non-Weatherized, Non-Condensing Gas Furnace Fan (NWG-NC) | FER = 0.044 × Q | Non-Weatherized, Condensing Gas Furnace Fan (NWG-C) | FER = 0.044 × Q | Weatherized Non-Condensing Gas Furnace Fan (WG-NC) | FER = 0.044 × Q | Non-Weatherized, Non-Condensing Oil Furnace Fan (NWO-NC) | FER = 0.071 × Q | Non-Weatherized Electric Furnace/Modular Blower Fan (NWEF/NWMB) | FER = 0.044 × Q | Mobile Home Non-Weatherized, Non-Condensing Gas Furnace Fan (MH-NWG-NC) | FER = 0.071 × Q | Mobile Home Non-Weatherized, Condensing Gas Furnace Fan (MH-NWG-C) | FER = 0.071 × Q | Mobile Home Electric Furnace/Modular Blower Fan (MH-EF/MB) | FER = 0.044 × Q | Mobile Home Non-Weatherized Oil Furnace Fan (MH-NWO) | Reserved | Mobile Home Weatherized Gas Furnace Fan (MH-WG) ** | Reserved |
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* 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.
** Q
(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 “Maximum UEC” standard when using the equations for the appropriate product class and corresponding rated battery energy as shown in the following table:
Product class | Product class description | Rated battery energy (Ebatt **) | Special characteristic or battery voltage | Maximum UEC (kWh/yr)
(as a function of Ebatt **) | 1 | Low-Energy | ≤5 Wh | Inductive Connection * | 3.04 | 2 | Low-Energy, Low-Voltage | <100 Wh | <4 V | 0.1440 * E | 3 | Low-Energy, Medium-Voltage | 4-10 V | For E 1.42 kWh/y E 0.0255 * E | 4 | Low-Energy, High-Voltage | >10 V | 0.11 * E | 5 | Medium-Energy, Low-Voltage | 100-3000 Wh | <20 V | 0.0257 * E | 6 | Medium-Energy, High-Voltage | ≥20 V | 0.0778 * E | 7 | High-Energy | >3000 Wh | 0.0502 * E |
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* Inductive connection and designed for use in a wet environment (
** E
(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)).
(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
Battery charger product class | Rated output power | Minimum efficiency | 10a (VFD UPSs) | 0 | −1.20E-06 * | 300 | −7.85E-08 * | −7.23E-09 * | 10b (VI UPSs) | 0 | −1.20E-06 * | 300 | −7.67E-08 * | −4.62E-09 * | 10c (VFI UPSs) | 0 | −3.13E-06 * | 300 | −2.60E-07 * | −1.70E-08 * |
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(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.
(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:
Product class | AEU
(kWh/yr) | (A) Freestanding compact. | 7.88AV + 155.8 | (B) Freestanding. | 7.88AV + 155.8 | (C) Built-in compact. | 7.88AV + 155.8 | (D) Built-in. | 7.88AV + 155.8 |
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(ii) Coolers manufactured on or after January 31, 2029, shall have an Annual Energy Use (AEU) no more than:
Product class | AEU
(kWh/yr) | (A) Freestanding compact. | 5.52AV + 109.1 | (B) Freestanding. | 5.52AV + 109.1 | (C) Built-in compact. | 5.52AV + 109.1 | (D) Built-in. | 6.30AV + 124.6 |
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(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:
Product class | AEU
(kWh/yr) | (A) C-3A. Cooler with all-refrigerator—automatic defrost | 4.57AV + 130.4 | (B) C-3A-BI. Built-in cooler with all-refrigerator—automatic defrost | 5.19AV + 147.8 | (C) C-9. Cooler with upright freezer with automatic defrost without an automatic icemaker | 5.58AV + 147.7 | (D) C-9-BI. Built-in cooler with upright freezer with automatic defrost without an automatic icemaker | 6.38AV + 168.8 | (E) C-9I. Cooler with upright freezer with automatic defrost with an automatic icemaker | 5.58AV + 231.7 | (F) C-9I-BI. Built-in cooler with upright freezer with automatic defrost with an automatic icemaker | 6.38AV + 252.8 | (G) C-13A. Compact cooler with all-refrigerator—automatic defrost | 5.93AV + 193.7 | (H) C-13A-BI. Built-in compact cooler with all-refrigerator—automatic defrost | 6.52AV + 213.1 |
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(ii) Combination cooler refrigeration products manufactured on or after January 31, 2029, shall have an Annual Energy Use (AEU) no more than:
Product class | AEU
(kWh/yr) | C-3A. Cooler with all-refrigerator—automatic defrost | 4.11AV + 117.4. | C-3A-BI. Built-in cooler with all-refrigerator—automatic defrost | 4.67AV + 133.0. | C-5-BI. Built-in cooler with refrigerator-freezer with automatic defrost with bottom-mounted freezer | 5.47AV + 196.2 + 28I. | C-9. Cooler with upright freezer with automatic defrost | 5.58AV + 147.7 + 28I. | C-9-BI. Built-in cooler with upright freezer with automatic defrost | 6.38AV + 168.8 + 28I. | C-13A. Compact cooler with all-refrigerator—automatic defrost | 4.74AV + 155.0. | C-13A-BI. Built-in compact cooler with all-refrigerator—automatic defrost | 5.22AV + 170.5. |
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AV = Total adjusted volume, expressed in ft 3, as determined in appendix A to subpart B of this part.
I = 1 for a product with an automatic icemaker and = 0 for a product without an automatic icemaker.
(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:
(i) Have a shatter-proof coating or equivalent technology that is compliant with NSF/ANSI 51 (incorporated by reference; see § 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;
(ii) Have a rated wattage not greater than 40 watts; and
(iii) Be sold at retail only in a package containing one lamp.
(2) Subject to the sales prohibition in paragraph (dd) of this section, vibration service lamps manufactured on or after January 25, 2018 must:
(i) Have a rated wattage no greater than 40 watts; and
(ii) Be sold at retail only in a package containing one lamp.
(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:
SACC: 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
(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.
(1) Energy conservation standards for general service lamps:
(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:
General Service Incandescent Lamps
Rated lumen ranges | Minimum
lifetime * (hrs) | Maximum rate
wattage | Compliance date | (A) 1490-2600 | 1,000 | 72 | 1/1/2012 | (B) 1050-1489 | 1,000 | 53 | 1/1/2013 | (C) 750-1049 | 1,000 | 43 | 1/1/2014 | (D) 310-749 | 1,000 | 29 | 1/1/2014 |
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* Use lifetime determined in accordance with § 429.66 of this chapter to determine compliance with this standard.
(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:
Modified Spectrum General Service Incandescent Lamps
Rated lumen ranges | Minimum
lifetime 1 (hrs) | Maximum rate
wattage | Compliance date | (A) 1118-1950 | 1,000 | 72 | 1/1/2012 | (B) 788-1117 | 1,000 | 53 | 1/1/2013 | (C) 563-787 | 1,000 | 43 | 1/1/2014 | (D) 232-562 | 1,000 | 29 | 1/1/2014 |
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1 Use lifetime determined in accordance with § 429.66 of this chapter to determine compliance with this standard.
(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:
Factor | Requirements | Configuration 1 | Labeled wattage
(watts) | Minimum initial
lamp efficacy (lumens per watt) must be at least: | (A) | ( | 45.0 | ( | 60.0 | (B) | ( | 40.0 | ( | 48.0 | ( | 50.0 | ( | 55.0 |
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1 Use labeled wattage to determine the appropriate efficacy requirements in this table; do not use measured wattage for this purpose.
(iv) Each general service lamp manufactured on or after July 25, 2028 must have:
(A) A power factor greater than or equal to 0.7 for integrated LED lamps (as defined in § 430.2) and 0.5 for medium base compact fluorescent lamps (as defined in § 430.2); and
(B) A lamp efficacy greater than or equal to the values shown in the table as follows:
Lamp type | Length | Standby mode operation 3 | Efficacy
(lm/W) | ( | Short (<45 inches) | No Standby Mode Operation | 123/(1.2+e | ( | Long (≥45 inches) | No Standby Mode Operation | 123/(1.2+e | ( | All Lengths | No Standby Mode Operation | 73/(0.5+e | ( | Short (<45 inches) | No Standby Mode Operation | 122/(0.55+e | ( | All Lengths | No Standby Mode Operation | 67/(0.45+e | ( | Short (<45 inches) | Standby Mode Operation | 123/(1.2+e | ( | All Lengths | Standby Mode Operation | 73/(0.5+e | ( | Long (≥45 inches) | No Standby Mode Operation | 123/(1.2+e |
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1 This lamp type comprises of directional lamps. A directional lamp is a lamp that meets the definition of reflector lamp as defined in § 430.2.
2 This lamp type comprises of, but is not limited to, lamps that are pin base compact fluorescent lamps (“CFLs”) and pin base light-emitting diode (“LED”) lamps designed and marketed as replacements of pin base CFLs.
3 Indicates whether or not lamps are capable of operating in standby mode operation.
(C) The standards described in paragraph (dd)(1)(iv) of this section do not apply to a general service lamp that:
(1) Is a general service organic light-emitting diode (OLED) lamps (as defined in § 430.2);
(2) Is a non-integrated lamp that is capable of operating in standby mode and is sold in packages of two lamps or less;
(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 § 430.2); and is sold in packages of two lamps or less;
(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 § 430.2) and at least one other setting in which it does not meet the definition of colored lamp (as defined in § 430.2) and is sold in packages of two lamps or less; or
(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.
(2) Medium base CFLs (as defined in § 430.2) manufactured on or after the dates specified in the following table shall meet or exceed the following standards:
Metrics | Requirements for
MBCFLs manufactured on or after January 1, 2006 | Requirements for
MBCFLs manufactured on or after July 25, 2028 | (i) Lumen Maintenance at 1,000 Hours | ≥90.0% | ≥90.0%. | (ii) Lumen Maintenance at 40 Percent of Lifetime 1 | ≥80.0% | ≥80.0%. | (iii) Rapid Cycle Stress Test | At least 5 lamps must meet or exceed the minimum number of cycles | At least 5 lamps must meet or exceed the minimum number of cycles. | All MBCFLs: Cycle once per every two hours of lifetime 1 | MBCFLs with start time >100 ms: Cycle once per hour of lifetime
1 or a maximum of 15,000 cycles.
MBCFLs with a start time of ≤100 ms: Cycle once per every two hours of lifetime. 1 | (iv) Lifetime 1 | ≥6,000 hours | ≥10,000 hours. | (v) Start time | No requirement | The time needed for a MBCFL to remain continuously illuminated must be within: {1} one second of application of electrical power for lamp with standby mode power {2} 750 milliseconds of application of electrical power for lamp without standby mode power. |
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1 Lifetime refers to lifetime of a compact fluorescent lamp as defined in § 430.2.
(ee) Air cleaners. (1) Conventional room air cleaners as defined in § 430.2 with a PM
Product capacity | IEF (PM CADR/W) | (i) 10 ≤PM | 1.7 | (ii) 100 ≤PM | 1.9 | (iii) PM | 2.0 |
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(2) Conventional room air cleaners as defined in § 430.2 with a PM
Product capacity | IEF (PM CADR/W) | (i) 10 ≤PM | 1.9 | (ii) 100 ≤PM | 2.4 | (iii) PM | 2.9 |
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§ 430.33 - Preemption of State regulations.
(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.
(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—
(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
(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.
§ 430.34 - Energy and water conservation standards amendments
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.
§ 430.35 - Petitions with respect to general service lamps.
(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.
(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:
(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
(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.
Appendix A - Appendix A to Subpart C of Part 430—Procedures, Interpretations, and Policies for Consideration of New or Revised Energy Conservation Standards and Test Procedures for Consumer Products and Certain Commercial/Industrial Equipment
This appendix establishes procedures, interpretations, and policies to guide the Department of Energy (“DOE” or the “Department”) in the consideration and promulgation of new or revised appliance energy conservation standards and test procedures under the Energy Policy and Conservation Act (EPCA). This appendix applies to both covered consumer products and covered commercial/industrial equipment. The Department's objectives in establishing these procedures include:
(a) Provide for early input from stakeholders. The Department seeks to provide opportunities for public input early in the rulemaking process so that the initiation and direction of rulemakings is informed by comment from interested parties. DOE will be able to seek early input from interested parties in determining whether establishing new or amending existing energy conservation standards will result in significant savings of energy and is economically justified and technologically feasible. In the context of test procedure rulemakings, DOE will be able to seek early input from interested parties in determining whether—
(1) Establishing a new or amending an existing test procedure will better measure the energy efficiency, energy use, water use (as specified in EPCA), or estimated annual operating cost of a covered product/equipment during a representative average use cycle or period of use (for consumer products); and
(2) Will not be unduly burdensome to conduct.
(b) Increase predictability of the rulemaking timetable. The Department seeks to make informed, strategic decisions about how to deploy its resources on the range of possible standards and test procedure development activities, and to announce these prioritization decisions so that all interested parties have a common expectation about the timing of different rulemaking activities. Further, DOE will offer the opportunity to provide input on the prioritization of rulemakings through a request for comment as DOE begins preparation of its Regulatory Agenda each spring.
(c) Eliminate problematic design options early in the process. The Department seeks to eliminate from consideration, early in the process, any design options that present unacceptable problems with respect to manufacturability, consumer utility, or safety, so that the detailed analysis can focus only on viable design options. DOE will be able to eliminate from consideration design options if it concludes that manufacture, installation or service of the design will be impractical, or that the design option will have a material adverse impact on the utility of the product, or if the design option will have a material adverse impact on safety or health. DOE will also be able to eliminate from consideration proprietary design options that represent a unique pathway to achieving a given efficiency level. This screening will be done at the outset of a rulemaking.
(d) Fully consider non-regulatory approaches. The Department seeks to understand the effects of market forces and voluntary programs on encouraging the purchase of energy efficient products so that the incremental impacts of a new or revised standard can be accurately assessed and the Department can make informed decisions about where standards and voluntary programs can be used most effectively. DOE will continue to be able to support voluntary efforts by manufacturers, retailers, utilities, and others to increase product/equipment efficiency.
(e) Conduct thorough analysis of impacts. In addition to understanding the aggregate social and private costs and benefits of standards, the Department seeks to understand the distribution of those costs and benefits among consumers, manufacturers, and others, as well as the uncertainty associated with these analyses of costs and benefits, so that any adverse impacts on subgroups and uncertainty concerning any adverse impacts can be fully considered in selecting a standard. DOE will be able to consider the variability of impacts on significant groups of manufacturers and consumers in addition to aggregate social and private costs and benefits, report the range of uncertainty associated with these impacts, and take into account cumulative impacts of regulation on manufacturers. The Department will also be able to conduct appropriate analyses to assess the impact that new or amended test procedures will have on manufacturers and consumers.
(f) Use transparent and robust analytical methods. The Department seeks to use qualitative and quantitative analytical methods that are fully documented for the public and that produce results that can be explained and reproduced, so that the analytical underpinnings for policy decisions on standards are as sound and well-accepted as possible.
(g) Support efforts to build consensus on standards. The Department seeks to encourage development of consensus proposals, including proposals developed in accordance with the Negotiated Rulemaking Act (5 U.S.C. 561 et seq.), for new or revised standards because standards with such broad-based support are likely to balance effectively the various interests affected by such standards.
2. ScopeThe procedures, interpretations, and policies described in this appendix apply to rulemakings concerning new or revised Federal energy conservation standards and test procedures, and related rule documents (i.e., coverage determinations) for consumer products in Part A and commercial and industrial equipment under Part A-1 of the Energy Policy and Conservation Act (EPCA), as amended, except covered ASHRAE equipment in Part A-1 are governed separately under section 9 in this appendix.
3. Application(a) This appendix contains procedures, interpretations, and policies that are generally applicable to the development of energy conservation standards and test procedures. The Department may, as necessary, deviate from this appendix to account for the specific circumstances of a particular rulemaking. In those instances where the Department may find it necessary or appropriate to deviate from these procedures, interpretations or policies, DOE will provide interested parties with notice of the deviation and an explanation.
(b) If the Department concludes that changes to the procedures, interpretations or policies in this appendix are necessary or appropriate, DOE will provide notice in the
(c) This appendix is not intended to, and does not, create any right or benefit, substantive or procedural, enforceable at law or in equity.
4. Setting Priorities for Rulemaking Activity(a) In establishing its priorities for undertaking energy conservation standards and test procedure rulemakings, DOE will consider the following factors, consistent with applicable legal obligations:
(1) Potential energy savings;
(2) Potential social and private, including environmental or energy security, benefits;
(3) Applicable deadlines for rulemakings;
(4) Incremental DOE resources required to complete the rulemaking process;
(5) Other relevant regulatory actions affecting the products/equipment;
(6) Stakeholder recommendations;
(7) Evidence of energy efficiency gains in the market absent new or revised standards;
(8) Status of required changes to test procedures; and
(9) Other relevant factors.
(b) DOE will offer the opportunity to provide input on prioritization of rulemakings through a request for comment as DOE begins preparation of its Regulatory Agenda each spring.
5. Coverage Determination RulemakingsDOE has discretion to conduct proceedings to determine whether additional consumer products and commercial/industrial equipment should be covered under EPCA if certain statutory criteria are met. (42 U.S.C. 6292(b) and 42 U.S.C. 6295(l) for consumer products; 42 U.S.C. 6312(b) for commercial/industrial equipment). This section describes the process to be used in establishing coverage for consumer products and commercial/industrial equipment.
(a) Pre-notice of proposed rulemaking (“NOPR”) stage. In determining whether to consider establishing coverage for a consumer product or commercial/industrial equipment, DOE may publish one or more preliminary documents in the
(b) NOPR stage. If DOE determines to proceed with a coverage determination process, the Department will publish a notice of proposed determination, providing an opportunity for public comment of not less than 60 days, in which DOE will explain how such products/equipment that it seeks to designate as “covered” meet the statutory criteria for coverage and why such coverage is “necessary or appropriate” to carry out the purposes of EPCA. In the case of commercial equipment, DOE will follow the same process, except that the Department must demonstrate that coverage of the equipment type is “necessary” to carry out the purposes of EPCA.
(c) Final rule. DOE will publish a final rule in the
(d) Scope of coverage revisions. If, during the substantive rulemaking proceedings to establish test procedures or energy conservation standards after completing a coverage determination, DOE finds it necessary and appropriate to amend the scope of coverage, DOE will propose an amended coverage determination and finalize coverage prior to moving forward with the test procedure or standards rulemaking.
6. Process for Developing Energy Conservation StandardsThis section describes the process to be used in developing energy conservation standards for covered products and equipment other than those covered equipment subject to ASHRAE/IES Standard 90.1.
(a) Pre-NOPR stage—(1) General. In determining whether to consider establishing or amending any energy conservation standard, DOE will publish one or more preliminary, pre-NOPR documents in the
(2) Satisfaction of statutory criteria. As part of such pre-NOPR-stage document(s), DOE will solicit submission of comments, data, and information on whether DOE should proceed with the rulemaking, including whether any new or amended rule would satisfy the relevant statutory criteria to be cost-effective, economically justified, technologically feasible, and result in a significant savings of energy. Based on the information received in response to such request and its own analysis, DOE will determine whether to proceed with a rulemaking for a new or amended energy conservation standard. If DOE determines at any point in the pre-NOPR stage that no candidate standard level for a new or amended standard is likely to satisfy all of the applicable statutory criteria (i.e., to be technologically feasible and economically justified and result in significant energy savings), DOE will announce that conclusion in the
(3) Design options—(i) General. Once the Department has initiated a rulemaking for a specific product/equipment but before publishing a proposed rule to establish or amend standards, DOE will typically identify the product/equipment categories and design options to be analyzed in detail, as well as those design options to be eliminated from further consideration. During the pre-NOPR stage of the rulemaking, interested parties may be consulted to provide information on key issues, including potential design options, through a variety of rulemaking documents.
(ii) Identification and screening of design options. During the pre-NOPR phase of the rulemaking process, the Department will typically develop a list of design options for consideration. Initially, the candidate design options will encompass all those technologies considered to be technologically feasible. Following the development of this initial list of design options, DOE will review each design option based on the factors described in paragraph (a)(3)(iii) of this section and the policies stated in section 7 of this appendix (i.e., Policies on Selection of Standards). The reasons for eliminating or retaining any design option at this stage of the process will be fully documented and published as part of the NOPR and as appropriate for a given rule, in the pre-NOPR document(s). The technologically feasible design options that are not eliminated in this screening analysis will be considered further in the Engineering Analysis described in paragraph (a)(4) of this section.
(iii) Factors for screening of design options. The factors for screening design options include:
(A) Technological feasibility. Technologies incorporated in commercial products (or equipment) or in working prototypes will be considered technologically feasible.
(B) Practicability to manufacture, install and service. If mass production of a technology under consideration for use in commercially-available products (or equipment) and reliable installation and servicing of the technology could be achieved on the scale necessary to serve the relevant market at the time of the effective date of the standard, then that technology will be considered practicable to manufacture, install, and service.
(C) Adverse impacts on product utility or product availability.
(D) Adverse impacts on health or safety.
(E) Unique-pathway proprietary technologies. If a design option utilizes proprietary technology that represents a unique pathway to achieving a given efficiency level, that technology will not be considered further.
(4) Engineering analysis of design options and selection of candidate standard levels. After design options are identified and screened, DOE will perform the engineering analysis and the benefit/cost analysis and select the candidate standard levels based on these analyses. The results of the analyses will be published in a Technical Support Document (TSD) to accompany the appropriate rulemaking documents.
(i) Identification of engineering analytical methods and tools. DOE will select the specific engineering analysis tools (or multiple tools, if necessary, to address uncertainty) to be used in the analysis of the design options identified as a result of the screening analysis.
(ii) Engineering and life-cycle cost analysis of design options. DOE and its contractors will perform engineering and life-cycle cost analyses of the design options.
(iii) Review by stakeholders. Interested parties will have the opportunity to review the results of the engineering and life-cycle cost analyses. If appropriate, a public workshop will be conducted to review these results. The analyses will be revised as appropriate on the basis of this input.
(iv) New information relating to the factors used for screening design options. If further information or analysis leads to a determination that a design option, or a combination of design options, has unacceptable impacts, that design option or combination of design options will not be included in a candidate standard level.
(v) Selection of candidate standard levels. Based on the results of the engineering and life-cycle cost analysis of design options and the policies stated in paragraph (a)(3)(iii) of this section, DOE will select the candidate standard levels for further analysis.
(5) Analysis of impacts and selection of proposed standard level. If DOE has determined preliminarily that a candidate standard level is likely to produce the maximum improvement in energy efficiency that is both technologically feasible and economically justified and constitutes significant energy savings, economic analyses of the impacts of the candidate standard levels will be conducted. The Department will propose new or amended standards in a subsequent NOPR based on the results of the impact analysis.
(i) Identification of issues for analysis. The Department, in consideration of comments received, will identify issues that will be examined in the impacts analysis.
(ii) Identification of analytical methods and tools. DOE will select the specific economic analysis tools (or multiple tools, if necessary, to address uncertainty) to be used in the analysis of the candidate standard levels.
(iii) Analysis of impacts. DOE will conduct the analysis of the impacts of candidate standard levels.
(iv) Factors to be considered in selecting a proposed standard. The factors to be considered in selection of a proposed standard include:
(A) Impacts on manufacturers. The analysis of manufacturer impacts will include: Estimated impacts on cash flow; assessment of impacts on manufacturers of specific categories of products/equipment and small manufacturers; assessment of impacts on manufacturers of multiple product-specific Federal regulatory requirements, including efficiency standards for other products and regulations of other agencies; and impacts on manufacturing capacity, employment, and capital investment.
(B) Private impacts on consumers. The analysis of consumer impacts will include: Estimated private energy savings impacts on consumers based on regional average energy prices and energy usage; assessments of the variability of impacts on subgroups of consumers based on major regional differences in usage or energy prices and significant variations in installation costs or performance; consideration of changes to product utility, changes to purchase rate and/or costs of products, and other impacts of likely concern to all or some consumers, based to the extent practicable on direct input from consumers; estimated life-cycle cost with sensitivity analysis; and consideration of the increased first cost to consumers and the time required for energy cost savings to pay back these first costs.
(C) Impacts on competition, including industry concentration analysis.
(D) Impacts on utilities. The analysis of utility impacts will include estimated marginal impacts on electric and gas utility generation and capacity.
(E) National energy, economic, and employment impacts. The analysis of national energy, economic, and employment impacts will include: estimated energy savings by fuel type; estimated net present value of benefits to all consumers; sensitivity analyses using high and low discount rates reflecting both private transactions and social discount rates and high and low energy price forecasts; and estimates of the direct and indirect impacts on employment by appliance manufacturers, relevant service industries, energy suppliers, suppliers of complementary and substitution products, and the economy in general.
(F) Impacts on the environment. The analysis of environmental impacts will include estimated impacts on emissions of carbon and relevant criteria pollutants.
(G) Impacts of non-regulatory approaches. The analysis of energy savings and consumer impacts will incorporate an assessment of the impacts of market forces and existing voluntary programs in promoting product/equipment efficiency, usage, and related characteristics in the absence of updated efficiency standards.
(H) New information relating to the factors used for screening design options.
(6) Public comment and hearing. The length of the public comment period for pre-NOPR rulemaking documents will be determined on a case-by-case basis and may vary depending upon the circumstances of the particular rulemaking. For pre-NOPR documents, DOE will determine whether a public hearing is appropriate.
(7) Revisions based on comments. Based on consideration of the comments received, any necessary changes to the engineering analysis, life-cycle cost analysis, or the candidate standard levels will be made.
(b) NOPR stage—(1) Documentation of decisions on proposed standard selection. The Department will publish a NOPR in the
(2) Public comment and hearing. There will be not less than 60 days for public comment on the NOPR, with at least one public hearing or workshop. (42 U.S.C. 6295(p)(2) and 42 U.S.C. 6306)
(3) Revisions to impact analyses and selection of final standard. Based on the public comments received, DOE will review the proposed standard and impact analyses, and make modifications as necessary. If major changes to the analyses are required at this stage, DOE will publish a supplemental notice of proposed rulemaking (SNOPR), when required. DOE may also publish a NODA or RFI, where appropriate.
(c) Final rule stage. The Department will publish a final rule in the
(a) Purpose. Section 6 describes the process that will be used to consider new or revised energy efficiency standards and lists a number of factors and analyses that will be considered at specified points in the process. Department policies concerning the selection of new or revised standards, and decisions preliminary thereto, are described in this section. These policies are intended to elaborate on the statutory criteria provided in 42 U.S.C. 6295. The procedures described in this section are intended to assist the Department in making the determinations required by EPCA and do not preclude DOE's consideration of any other information consistent with the relevant statutory criteria. The Department will consider pertinent information in determining whether a new or revised standard is consistent with the statutory criteria.
(b) Screening design options. These factors will be considered as follows in determining whether a design option will receive any further consideration:
(1) Technological feasibility. Technologies that are not incorporated in commercial products or in commercially-viable, existing prototypes will not be considered further.
(2) Practicability to manufacture, install and service. If it is determined that mass production of a technology in commercial products and reliable installation and servicing of the technology could not be achieved on the scale necessary to serve the relevant market at the time of the compliance date of the standard, then that technology will not be considered further.
(3) Impacts on product utility. If a technology is determined to have significant adverse impact on the utility of the product/equipment to subgroups of consumers, or result in the unavailability of any covered product type with performance characteristics (including reliability), features, sizes, capacities, and volumes that are substantially the same as products generally available in the U.S. at the time, it will not be considered further.
(4) Safety of technologies. If it is determined that a technology will have significant adverse impacts on health or safety, it will not be considered further.
(5) Unique-pathway proprietary technologies. If a technology has proprietary protection and represents a unique pathway to achieving a given efficiency level, it will not be considered further, due to the potential for monopolistic concerns.
(c) Identification of candidate standard levels. Based on the results of the engineering and cost/benefit analyses of design options, DOE will identify the candidate standard levels for further analysis. Candidate standard levels will be selected as follows:
(1) Costs and savings of design options. Design options that have payback periods that exceed the median life of the product or which result in life-cycle cost increases relative to the base case, using typical fuel costs, usage, and private discount rates, will not be used as the basis for candidate standard levels.
(2) Further information on factors used for screening design options. If further information or analysis leads to a determination that a design option, or a combination of design options, has unacceptable impacts under the policies stated in this Appendix, that design option or combination of design options will not be included in a candidate standard level.
(3) Selection of candidate standard levels. Candidate standard levels, which will be identified in the pre-NOPR documents and on which impact analyses will be conducted, will be based on the remaining design options.
(i) The range of candidate standard levels will typically include:
(A) The most energy-efficient combination of design options;
(B) The combination of design options with the lowest life-cycle cost; and
(C) A combination of design options with a payback period of not more than three years.
(ii) Candidate standard levels that incorporate noteworthy technologies or fill in large gaps between efficiency levels of other candidate standard levels also may be selected.
(d) Pre-NOPR Stage. New information provided in public comments on any pre-NOPR documents will be considered to determine whether any changes to the candidate standard levels are needed before proceeding to the analysis of impacts.
(e)(1) Selection of proposed standard. Based on the results of the analysis of impacts, DOE will select a standard level to be proposed for public comment in the NOPR. As required under 42 U.S.C. 6295(o)(2)(A), any new or revised standard must be designed to achieve the maximum improvement in energy efficiency that is determined to be both technologically feasible and economically justified.
(2) Statutory policies. The fundamental policies concerning the selection of standards include:
(i) A trial standard level will not be proposed or promulgated if the Department determines that it is not both technologically feasible and economically justified. (42 U.S.C. 6295(o)(2)(A) and 42 U.S.C. 6295(o)(3)(B)) For a trial standard level to be economically justified, the Secretary must determine that the benefits of the standard exceed its burdens by, to the greatest extent practicable, considering the factors listed in 42 U.S.C. 6295(o)(2)(B)(i). A standard level is subject to a rebuttable presumption that it is economically justified if the payback period is three years or less. (42 U.S.C. 6295(o)(2)(B)(iii))
(ii) If the Department determines that interested persons have established by a preponderance of the evidence that a standard level is likely to result in the unavailability in the United States of any covered product/equipment type (or class) with performance characteristics (including reliability), features, sizes, capacities, and volumes that are substantially the same as products generally available in the U.S. at the time of the determination, then that standard level will not be proposed. (42 U.S.C. 6295(o)(4))
(iii) If the Department determines that a standard level would not result in significant conservation of energy, that standard level will not be proposed. (42 U.S.C. 6295(o)(3)(B))
(f) Selection of a final standard. New information provided in the public comments on the NOPR and any analysis by the Department of Justice concerning impacts on competition of the proposed standard will be considered to determine whether issuance of a new or amended energy conservation standard produces the maximum improvement in energy efficiency that is both technologically feasible and economically justified and still constitutes significant energy savings or whether any change to the proposed standard level is needed before proceeding to the final rule. The same policies used to select the proposed standard level, as described in this section, will be used to guide the selection of the final standard level or a determination that no new or amended standard is justified.
8. Test Procedures(a) Pre-NOPR stage—(1) General. In determining whether to consider establishing or amending any test procedure, DOE will publish one or more preliminary documents in the
(2) Satisfaction of statutory criteria. As part of such document(s), DOE will solicit submission of comments, data, and information on whether DOE should proceed with the rulemaking, including whether: a new test procedure would satisfy the relevant statutory criteria that test procedures be reasonably designed to produce test results which measure energy efficiency, energy use, water use (in the case of showerheads, faucets, water closets and urinals), or estimated annual operating cost of a covered product during a representative average use cycle or period of use, as determined by the Secretary, and shall not be unduly burdensome to conduct; or an amended test procedure would more fully or accurately comply with the aforementioned statutory criteria. Based on the information received in response to such request and its own analysis, DOE will determine whether to proceed with a rulemaking for a new or amended test procedure.
(3) If DOE determines that a new or amended test procedure would not satisfy the applicable statutory criteria, DOE will engage in notice-and-comment rulemaking to issue a determination that a new or amended test procedure is not warranted.
(4) If DOE receives sufficient information suggesting a new or amended test procedure may satisfy the applicable statutory criteria or the information received is inconclusive with regard to the statutory criteria, DOE will move forward with the rulemaking to issue or amend a test procedure.
(5) In those instances where the available information either suggested that a new or amended test procedure might be warranted or in which the information was inconclusive on this point, and DOE undertakes a rulemaking to establish or amend a test procedure, DOE may still ultimately determine that such a test procedure does not satisfy the applicable statutory criteria at a later stage of the rulemaking.
(6) Public comment and hearing. The length of the public comment period for pre-NOPR rulemaking documents will be determined on a case-by-case basis and may vary depending upon the circumstances of the particular rulemaking. For pre-NOPR documents, DOE will determine whether a public hearing is appropriate.
(b) NOPR stage—(1) Documentation of decisions on proposed test procedure. The Department will publish a NOPR in the
(2) Public comment and hearing. There will be not less than 60 days for public comment on the NOPR, with at least one public hearing or workshop. (42 U.S.C. 6293(b)(2) and 42 U.S.C. 6306)
(3) Revisions to the analyses and establishment of a final test procedure. Based on the public comments received, DOE will review the proposed test procedure, and make modifications as necessary. As part of this process, DOE may issue an RFI, NODA, SNOPR, or other rulemaking document, as appropriate.
(c) Final rule stage. The Department will publish a final rule in the
(d) Adoption of industry test methods. DOE will adopt industry test procedure standards as DOE test procedures for covered products and equipment, but only if DOE determines that such procedures would not be unduly burdensome to conduct and would produce test results that reflect the energy efficiency, energy use, water use (as specified in EPCA) or estimated operating costs of that equipment during a representative average use cycle. DOE may also adopt industry test procedure standards with modifications or craft its own procedures as necessary to ensure compatibility with the relevant statutory requirements, as well as DOE's compliance, certification, and enforcement requirements.
(e) Issuing final test procedure—(1) Process. Test procedure rulemakings establishing methodologies used to evaluate proposed energy conservation standards will be finalized prior to publication of a NOPR proposing new or amended energy conservation standards. Except as provided in paragraph (e)(2) of this section, new test procedures and amended test procedures that impact measured energy use or efficiency will be finalized at least 180 days prior to the close of the comment period for:
(i) A NOPR proposing new or amended energy conservation standards; or
(ii) A notice of proposed determination that standards do not need to be amended. With regards to amended test procedures, DOE will state in the test procedure final rule whether the amendments impact measured energy use or efficiency.
(2) Exceptions. The 180-day period for new test procedures and amended test procedures that impact measured energy use or efficiency specified in paragraph (e)(1) of this section is not applicable to:
(i) Test procedures developed in accordance with the Negotiated Rulemaking Act or by interested persons that are fairly representative of relevant points of view (including representatives of manufacturers of covered products, States, and efficiency advocates), as determined by the Secretary; or
(ii) Test procedure amendments limited to calculation changes (e.g., use factor or adder). Parties submitting a consensus recommendation in accordance with paragraph (e)(2)(i) of this section may specify a time period between finalization of the test procedure and the close of the comment for a NOPR proposing new or amended energy conservation standards or a notice of proposed determination that standards do not need to be amended.
(f) Effective date of test procedures. If required only for the evaluation and issuance of updated efficiency standards, use of the modified test procedures typically will not be required until the implementation date of updated standards.
9. ASHRAE EquipmentEPCA provides unique statutory requirements and a specific set of timelines for certain enumerated types of commercial and industrial equipment (generally, commercial water heaters, commercial packaged boilers, commercial air-conditioning and heating equipment, and packaged terminal air conditioners and heat pumps (i.e., “ASHRAE equipment”)).
(a) ASHRAE trigger rulemakings for energy conservation standards. Pursuant to EPCA's statutory scheme for covered ASHRAE equipment, DOE is required to consider amending the existing Federal energy conservation standards for ASHRAE equipment when ASHRAE Standard 90.1 is amended with respect to standards or design requirements applicable to such equipment.
(1) Not later than 180 days after the amendment of ASHRAE Standard 90.1, DOE will publish in the
(2) Not later than 18 months after the amendment of ASHRAE Standard 90.1, DOE must adopt amended energy conservation standards at the new efficiency level in ASHRAE Standard 90.1 as the uniform national standard for the affected equipment, unless DOE determines by rule, and supported by clear and convincing evidence, that a more-stringent standard would result in significant additional conservation of energy and is technologically feasible and economically justified. In such case, DOE must adopt the more-stringent standard for the affected equipment not later than 30 months after amendment of ASHRAE Standard 90.1.
(3) Regarding amendments to ASHRAE Standard 90.1 involving energy conservation standards, DOE considers an amendment of a standard level to occur when an updated version of ASHRAE Standard 90.1 publishes (i.e., not at the time that an addendum to ASHRAE Standard 90.1 is released or approved). In addition, DOE considers an amendment of standard levels in ASHRAE Standard 90.1 to be only those changes resulting in an increase in stringency of standard levels relative to the current Federal standards or the adoption of a design requirement.
(b) ASHRAE trigger rulemakings for test procedures. Pursuant to EPCA's statutory scheme for covered ASHRAE equipment, DOE is required to consider amending the existing Federal test procedures for such equipment when ASHRAE Standard 90.1 is amended with respect to test procedures applicable to such equipment.
(1) DOE shall amend the test procedure for ASHRAE equipment, as necessary, to be consistent with the amended ASHRAE Standard 90.1, unless DOE determines by rule, and supported by clear and convincing evidence, that to do so would not meet the requirements in 42 U.S.C. 6314(a)(2)-(3), which generally provide that the test procedure must produce results which reflect energy efficiency, energy use, and estimated operating costs during a representative average use cycle and not be unduly burdensome to conduct. If DOE makes such a determination, DOE may establish an amended test procedure for such equipment that meets the requirements in 42 U.S.C. 6314(a)(2)-(3).
(2) With regard to test procedures for ASHRAE equipment, EPCA requires DOE to adopt test procedures consistent with applicable industry test standards.
(c) ASHRAE lookback rulemakings for standards. EPCA also requires that DOE periodically consider amending energy conservation standards for ASHRAE equipment.
(1) Every 6 years, DOE shall conduct an evaluation of each class of covered equipment. DOE shall publish either a notice of determination that standards do not need to be amended (because they would not result in significant additional conservation of energy and/or would not be technologically feasible and/or economically justified) or a notice of proposed rulemaking including new proposed standards (based on the criteria and procedures in 42 U.S.C. 6313(a)(6)(B) and supported by clear and convincing evidence).
(2) If DOE issues a notice of proposed rulemaking, it shall publish a final rule no more than 2 years later.
(3) If DOE determines that a standard does not need to be amended, not later than 3 years after such a determination, DOE must publish either a notice of determination that standards do not need to be amended (because they would not result in significant additional conservation of energy and/or would not be technologically feasible and/or economically justified) or a notice of proposed rulemaking including new proposed standards (based on the criteria and procedures in 42 U.S.C. 6313(a)(6)(B) and supported by clear and convincing evidence).
(d) ASHRAE lookback rulemakings for test procedures. EPCA also requires that DOE periodically consider amending test procedures for ASHRAE equipment. At least once every 7 years, DOE shall conduct an evaluation, and if DOE determines, that amended test procedures would more accurately or fully comply with the requirements in 42 U.S.C. 6314(a)(2)-(3), it shall prescribe test procedures for the applicable equipment. Otherwise, DOE shall publish a notice of determination not to amend a test procedure.
10. Direct Final RulesIn accordance with 42 U.S.C. 6295(p)(4), on receipt of a joint proposal, including a consensus recommendation developed in accordance with the Negotiated Rulemaking Act (5 U.S.C. 561 et seq.), that is submitted by interested persons that are fairly representative of relevant points of view, DOE may issue a direct final rule (DFR) establishing energy conservation standards for a covered product or equipment if DOE determines the recommended standard is in accordance with 42 U.S.C. 6295(o) or 42 U.S.C. 6313(a)(6)(B) as applicable. To be “fairly representative of relevant points of view” the group submitting a joint statement must, where appropriate, include larger concerns and small businesses in the regulated industry/manufacturer community, energy advocates, energy utilities, consumers, and States. However, it will be necessary to evaluate the meaning of “fairly representative” on a case-by-case basis, subject to the circumstances of a particular rulemaking, to determine whether fewer or additional parties must be part of a joint statement in order to be “fairly representative of relevant points of view.”
11. Principles for Distinguishing Between Effective and Compliance Dates(a) Dates, generally. The effective and compliance dates for either DOE test procedures or DOE energy conservation standards are typically not identical, and these terms should not be used interchangeably.
(b) Effective date. The effective date is the date a rule is legally operative after being published in the
(c) Compliance date. (1) For test procedures, the compliance date is the specific date when manufacturers are required to use the new or amended test procedure requirements to make representations concerning the energy efficiency or use of a product, including certification that the covered product/equipment meets an applicable energy conservation standard.
(2) For energy conservation standards, the compliance date is the specific date upon which manufacturers are required to meet the new or amended standards for applicable covered products/equipment that are distributed in interstate commerce.
12. Principles for the Conduct of the Engineering Analysis(a) The purpose of the engineering analysis is to develop the relationship between efficiency and cost of the subject product/equipment. The Department will use the most appropriate means available to determine the efficiency/cost relationship, including an overall system approach or engineering modeling to predict the reduction in energy use or improvement in energy efficiency that can be expected from individual design options as discussed in paragraphs (b) and (c) of this section. From this efficiency/cost relationship, measures such as payback, life-cycle cost, and energy savings can be developed. The Department will identify issues that will be examined in the engineering analysis and the types of specialized expertise that may be required. DOE will select appropriate contractors, subcontractors, and expert consultants, as necessary, to perform the engineering analysis and the impact analysis. Also, the Department will consider data, information, and analyses received from interested parties for use in the analysis wherever feasible.
(b) The engineering analysis begins with the list of design options developed in consultation with the interested parties as a result of the screening process. The Department will establish the likely cost and performance improvement of each design option. Ranges and uncertainties of cost and performance will be established, although efforts will be made to minimize uncertainties by using measures such as test data or component or material supplier information where available. Estimated uncertainties will be carried forward in subsequent analyses. The use of quantitative models will be supplemented by qualitative assessments as appropriate.
(c) The next step includes identifying, modifying, or developing any engineering models necessary to predict the efficiency impact of any one or combination of design options on the product/equipment. A base case configuration or starting point will be established, as well as the order and combination/blending of the design options to be evaluated. DOE will then perform the engineering analysis and develop the cost-efficiency curve for the product/equipment. The cost efficiency curve and any necessary models will be available to stakeholders during the pre-NOPR stage of the rulemaking.
13. Principles for the Analysis of Impacts on Manufacturers(a) Purpose. The purpose of the manufacturer analysis is to identify the likely private impacts of efficiency standards on manufacturers. The Department will analyze the impact of standards on manufacturers with substantial input from manufacturers and other interested parties. This section describes the principles that will be used in conducting future manufacturing impact analyses.
(b) Issue identification. In the impact analysis stage, the Department will identify issues that will require greater consideration in the detailed manufacturer impact analysis. Possible issues may include identification of specific types or groups of manufacturers and concerns over access to technology. Specialized contractor expertise, empirical data requirements, and analytical tools required to perform the manufacturer impact analysis also would be identified at this stage.
(c) Industry characterization. Prior to initiating detailed impact studies, the Department will seek input on the present and past industry structure and market characteristics. Input on the following issues will be sought:
(1) Manufacturers and their current and historical relative market shares;
(2) Manufacturer characteristics, such as whether manufacturers make a full line of models or serve a niche market;
(3) Trends in the number of manufacturers;
(4) Financial situation of manufacturers;
(5) Trends in product/equipment characteristics and retail markets including manufacturer market shares and market concentration; and
(6) Identification of other relevant regulatory actions and a description of the nature and timing of any likely impacts.
(d) Cost impacts on manufacturers. The costs of labor, material, engineering, tooling, and capital are difficult to estimate, manufacturer-specific, and usually proprietary. The Department will seek input from interested parties on the treatment of cost issues. Manufacturers will be encouraged to offer suggestions as to possible sources of data and appropriate data collection methodologies. Costing issues to be addressed include:
(1) Estimates of total private cost impacts, including product/equipment-specific costs (based on cost impacts estimated for the engineering analysis) and front-end investment/conversion costs for the full range of product/equipment models.
(2) Range of uncertainties in estimates of average cost, considering alternative designs and technologies which may vary cost impacts and changes in costs of material, labor, and other inputs which may vary costs.
(3) Variable cost impacts on particular types of manufacturers, considering factors such as atypical sunk costs or characteristics of specific models which may increase or decrease costs.
(e) Impacts on product/equipment sales, features, prices, and cost recovery. In order to make manufacturer cash-flow calculations, it is necessary to predict the number of products/equipment sold and their sale price. This requires an assessment of the likely impacts of price changes on the number of products/equipment sold and on typical features of models sold. Past analyses have relied on price and shipment data generated by economic models. The Department will develop additional estimates of prices and shipments by drawing on multiple sources of data and experience including: Actual shipment and pricing experience; data from manufacturers, retailers, and other market experts; financial models, and sensitivity analyses. The possible impacts of candidate/trial standard levels on consumer choices among competing fuels will be explicitly considered where relevant.
(f) Measures of impact. The manufacturer impact analysis will estimate the impacts of candidate/trial standard levels on the net cash flow of manufacturers. Computations will be performed for the industry as a whole and for typical and atypical manufacturers. The exact nature and the process by which the analysis will be conducted will be determined by DOE, with input from interested parties, as appropriate. Impacts to be analyzed include:
(1) Industry net present value, with sensitivity analyses based on uncertainty of costs, sales prices, and sales volumes;
(2) Cash flows, by year; and
(3) Other measures of impact, such as revenue, net income, and return on equity, as appropriate. DOE also notes that the characteristics of a typical manufacturers worthy of special consideration will be determined in consultation with manufacturers and other interested parties and may include: Manufacturers incurring higher or lower than average costs; and manufacturers experiencing greater or fewer adverse impacts on sales. Alternative scenarios based on other methods of estimating cost or sales impacts also will be performed, as needed.
(g) Cumulative Impacts of Other Federal Regulatory Actions. (1) The Department will recognize and seek to mitigate the overlapping effects on manufacturers of new or revised DOE standards and other regulatory actions affecting the same products or equipment. DOE will analyze and consider the impact on manufacturers of multiple product/equipment-specific regulatory actions. These factors will be considered in setting rulemaking priorities, conducting the early assessment as to whether DOE should proceed with a standards rulemaking, assessing manufacturer impacts of a particular standard, and establishing compliance dates for a new or revised standard that, consistent with any statutory requirements, are appropriately coordinated with other regulatory actions to mitigate any cumulative burden.
(2) If the Department determines that a proposed standard would impose a significant impact on product or equipment manufacturers within approximately three years of the compliance date of another DOE standard that imposes significant impacts on the same manufacturers (or divisions thereof, as appropriate), the Department will, in addition to evaluating the impact on manufacturers of the proposed standard, assess the joint impacts of both standards on manufacturers.
(3) If the Department is directed to establish or revise standards for products/equipment that are components of other products/equipment subject to standards, the Department will consider the interaction between such standards in setting rulemaking priorities and assessing manufacturer impacts of a particular standard. The Department will assess, as part of the engineering and impact analyses, the cost of components subject to efficiency standards.
(h) Summary of quantitative and qualitative assessments. The summary of quantitative and qualitative assessments will contain a description and discussion of uncertainties. Alternative estimates of impacts, resulting from the different potential scenarios developed throughout the analysis, will be explicitly presented in the final analysis results.
(1) Key modeling and analytical tools. In its assessment of the likely impacts of standards on manufacturers, the Department will use models that are clear and understandable, feature accessible calculations, and have clearly explained assumptions. As a starting point, the Department will use the Government Regulatory Impact Model (GRIM). The Department will also support the development of economic models for price and volume forecasting. Research required to update key economic data will be considered.
(2) [Reserved]
14. Principles for the Analysis of Impacts on Consumers(a) Early consideration of impacts on consumer utility. The Department will consider at the earliest stages of the development of a standard whether particular design options will lessen the utility of the covered products/equipment to the consumer. See paragraph (b) of section 6.
(b) Impacts on product/equipment availability. The Department will determine, based on consideration of information submitted during the standard development process, whether a proposed standard is likely to result in the unavailability of any covered product/equipment type with performance characteristics (including reliability), features, sizes, capacities, and volumes that are substantially the same as products/equipment generally available in the U.S. at the time. DOE will not promulgate a standard if it concludes that it would result in such unavailability.
(c) Department of Justice review. As required by law, the Department will solicit the views of the Department of Justice on any lessening of competition likely to result from the imposition of a proposed standard and will give the views provided full consideration in assessing economic justification of a proposed standard. In addition, DOE may consult with the Department of Justice at earlier stages in the standards development process to seek its preliminary views on competitive impacts.
(d) Variation in consumer impacts. The Department will use regional analysis and sensitivity analysis tools, as appropriate, to evaluate the potential distribution of impacts of candidate/trial standard levels among different subgroups of consumers. The Department will consider impacts on significant segments of consumers in determining standards levels. Where there are significant negative impacts on identifiable subgroups, DOE will consider the efficacy of voluntary approaches as a means to achieve potential energy savings.
(e) Payback period and first cost. (1) In the assessment of consumer impacts of standards, the Department will consider Life-Cycle Cost, Payback Period, and Cost of Conserved Energy to evaluate the savings in operating expenses relative to increases in purchase price. The Department also performs sensitivity and scenario analyses when appropriate. The results of these analyses will be carried throughout the analysis and the ensuing uncertainty described.
(2) If, in the analysis of consumer impacts, the Department determines that a candidate/trial standard level would result in a substantial increase in product/equipment first costs to consumers or would not pay back such additional first costs through energy cost savings in less than three years, Department will assess the likely impacts of such a standard on low-income households, product/equipment sales and fuel switching, as appropriate.
15. Consideration of Non-Regulatory ApproachesThe Department recognizes that non-regulatory efforts by manufacturers, utilities, and other interested parties can result in substantial efficiency improvements. The Department intends to consider the likely effects of non-regulatory initiatives on product/equipment energy use, consumer utility and life-cycle costs, manufacturers, competition, utilities, and the environment, as well as the distribution of these impacts among different regions, consumers, manufacturers, and utilities. DOE will attempt to base its assessment on the actual impacts of such initiatives to date, but also will consider information presented regarding the impacts that any existing initiative might have in the future. Such information is likely to include a demonstration of the strong commitment of manufacturers, distribution channels, utilities, or others to such non-regulatory efficiency improvements. This information will be used in assessing the likely incremental impacts of establishing or revising standards, in assessing—where possible—appropriate compliance dates for new or revised standards, and in considering DOE support of non-regulatory initiatives.
16. Cross-Cutting Analytical AssumptionsIn selecting values for certain cross-cutting analytical assumptions, DOE expects to continue relying upon the following sources and general principles:
(a) Underlying economic assumptions. The appliance standards analyses will generally use the same economic growth and development assumptions that underlie the most current Annual Energy Outlook (AEO) published by the Energy Information Administration (EIA).
(b) Analytic time length. The appliance standards analyses will use two time lengths—30 years and another time length that is specific to the standard being considered such as the useful lifetime of the product under consideration. As a sensitivity case, the analyses will also use a 9-year regulatory timeline in analyzing the effects of the standard.
(c) Energy price and demand trends. Analyses of the likely impact of appliance standards on typical users will generally adopt the mid-range energy price and demand scenario of the EIA's most current AEO. The sensitivity of such estimated impacts to possible variations in future energy prices are likely to be examined using the EIA's high and low energy price scenarios.
(d) Product/equipment-specific energy-efficiency trends, without updated standards. Product/equipment-specific energy-efficiency trends will be based on a combination of the efficiency trends forecast by the EIA's residential and commercial demand model of the National Energy Modeling System (NEMS) and product-specific assessments by DOE and its contractors with input from interested parties.
(e) Price forecasting. DOE will endeavor to use robust price forecasting techniques in projecting future prices of products.
(f) Private Discount rates. For residential and commercial consumers, ranges of three different real discount rates will be used. For residential consumers, the mid-range discount rate will represent DOE's approximation of the average financing cost (or opportunity costs of reduced savings) experienced by typical consumers. Sensitivity analyses will be performed using discount rates reflecting the costs more likely to be experienced by residential consumers with little or no savings and credit card financing and consumers with substantial savings. For commercial users, a mid-range discount rate reflecting DOE's approximation of the average real rate of return on commercial investment will be used, with sensitivity analyses being performed using values indicative of the range of real rates of return likely to be experienced by typical commercial businesses. For national net present value calculations, DOE would use the Administration's approximation of the average real rate of return on private investment in the U.S. economy. For manufacturer impacts, DOE typically uses a range of real discount rates which are representative of the real rates of return experienced by typical U.S. manufacturers affected by the program.
(g) Social discount rates. Social discount rates as specified in OMB Circular A-4 will be used in assessing social effects such as costs and benefits.
(h) Environmental impacts. (1) DOE calculates emission reductions of carbon dioxide, sulfur dioxide, nitrogen oxides, methane, nitrous oxides, and mercury likely to be avoided by candidate/trial standard levels based on an emissions analysis that includes the two components described in paragraphs (h)(2) and (3) of this section.
(2) The first component estimates the effect of potential candidate/trial standard levels on power sector and site combustion emissions of carbon dioxide, nitrogen oxides, sulfur dioxide, mercury, methane, and nitrous oxide. DOE develops the power sector emissions analysis using a methodology based on DOE's latest Annual Energy Outlook. For site combustion of natural gas or petroleum fuels, the combustion emissions of carbon dioxide and nitrogen oxides are estimated using emission intensity factors from the Environmental Protection Agency.
(3) The second component of DOE's emissions analysis estimates the effect of potential candidate/trial standard levels on emissions of carbon dioxide, nitrogen oxides, sulfur dioxide, mercury, methane, and nitrous oxide due to “upstream activities” in the fuel production chain. These upstream activities include the emissions related to extracting, processing, and transporting fuels to the site of combustion as detailed in DOE's Fuel-Fuel-Cycle Statement of Policy (76 FR 51281 (August 18, 2011)). DOE will consider the effects of the candidate/trial standard levels on these emissions after assessing the seven factors required to demonstrate economic justification under EPCA. Consistent with Executive Order 13783, dated March 28, 2017, when monetizing the value of changes in reductions in CO