Regulations last checked for updates: Nov 22, 2024

Title 40 - Protection of Environment last revised: Nov 20, 2024
All TitlesTitle 40Chapter IPart 63Subpart DDDDDAppendix - Table 12 to Subpart DDDDD of Part 63—Alternative Emission Limits for New or Reconstructed Boilers and Process Heaters That Commenced Construction or Reconstruction After May 20, 2011, and Before December 23, 2011
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Appendix - Table 12 to Subpart DDDDD of Part 63—Alternative Emission Limits for New or Reconstructed Boilers and Process Heaters That Commenced Construction or Reconstruction After May 20, 2011, and Before December 23, 2011
If your boiler or
process heater is in this
subcategory . . . 		For the following
pollutants . . . 		The emissions must not
exceed the following
emission limits, except during periods of startup and shutdown . . . 		Using this specified sampling volume or test run duration . . .
1. Units in all subcategories designed to burn solid fuela. HCl0.022 lb per MMBtu of heat inputFor M26A, collect a minimum of 1 dscm per run; for M26 collect a minimum of 120 liters per run.
b. Mercury3.5E-06 a lb per MMBtu of heat inputFor M29, collect a minimum of 3 dscm per run; for M30A or M30B, collect a minimum sample as specified in the method; for ASTM D6784 b collect a minimum of 3 dscm.
2. Units design to burn coal/solid fossil fuela. Filterable PM (or TSM)1.1E-03 lb per MMBtu of heat input; or (2.3E-05 lb per MMBtu of heat input)Collect a minimum of 3 dscm per run.
3. Pulverized coal boilers designed to burn coal/solid fossil fuela. Carbon monoxide (CO) (or CEMS)130 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average; or (320 ppm by volume on a dry basis corrected to 3 percent oxygen, c 30-day rolling average)1 hr minimum sampling time.
4. Stokers designed to burn coal/solid fossil fuela. CO (or CEMS)130 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average; or (340 ppm by volume on a dry basis corrected to 3 percent oxygen, c 10-day rolling average)1 hr minimum sampling time.
5. Fluidized bed units designed to burn coal/solid fossil fuela. CO (or CEMS)130 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average; or (230 ppm by volume on a dry basis corrected to 3 percent oxygen, c 30-day rolling average)1 hr minimum sampling time.
6. Fluidized bed units with an integrated heat exchanger designed to burn coal/solid fossil fuela. CO (or CEMS)140 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average; or (150 ppm by volume on a dry basis corrected to 3 percent oxygen, c 30-day rolling average)1 hr minimum sampling time.
7. Stokers/sloped grate/others designed to burn wet biomass fuela. CO (or CEMS)620 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average; or (390 ppm by volume on a dry basis corrected to 3 percent oxygen, c 30-day rolling average)1 hr minimum sampling time.
b. Filterable PM (or TSM)3.0E-02 lb per MMBtu of heat input; or (2.6E-05 lb per MMBtu of heat input)Collect a minimum of 2 dscm per run.
8. Stokers/sloped grate/others designed to burn kiln-dried biomass fuela. CO460 ppm by volume on a dry basis corrected to 3 percent oxygen1 hr minimum sampling time.
b. Filterable PM (or TSM)3.0E-02 lb per MMBtu of heat input; or (4.0E-03 lb per MMBtu of heat input)Collect a minimum of 2 dscm per run.
9. Fluidized bed units designed to burn biomass/bio-based solidsa. CO (or CEMS)260 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average; or (310 ppm by volume on a dry basis corrected to 3 percent oxygen, c 30-day rolling average)1 hr minimum sampling time.
b. Filterable PM (or TSM)9.8E-03 lb per MMBtu of heat input; or (8.3E-05 a lb per MMBtu of heat input)Collect a minimum of 3 dscm per run.
10. Suspension burners designed to burn biomass/bio-based solidsa. CO (or CEMS)2,400 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average; or (2,000 ppm by volume on a dry basis corrected to 3 percent oxygen, c 10-day rolling average)1 hr minimum sampling time.
b. Filterable PM (or TSM)3.0E-02 lb per MMBtu of heat input; or (6.5E-03 lb per MMBtu of heat input)Collect a minimum of 2 dscm per run.
11. Dutch Ovens/Pile burners designed to burn biomass/bio-based solidsa. CO (or CEMS)470 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average; or (520 ppm by volume on a dry basis corrected to 3 percent oxygen, c 10-day rolling average)1 hr minimum sampling time.
b. Filterable PM (or TSM)3.2E-03 lb per MMBtu of heat input; or (3.9E-05 lb per MMBtu of heat input)Collect a minimum of 3 dscm per run.
12. Fuel cell units designed to burn biomass/bio-based solidsa. CO910 ppm by volume on a dry basis corrected to 3 percent oxygen1 hr minimum sampling time.
b. Filterable PM (or TSM)2.0E-02 lb per MMBtu of heat input; or (2.9E-05 lb per MMBtu of heat input)Collect a minimum of 2 dscm per run.
13. Hybrid suspension grate boiler designed to burn biomass/bio-based solidsa. CO (or CEMS)1,500 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average; or (900 ppm by volume on a dry basis corrected to 3 percent oxygen, c 30-day rolling average)1 hr minimum sampling time.
b. Filterable PM (or TSM)2.6E-02 lb per MMBtu of heat input; or (4.4E-04 lb per MMBtu of heat input)Collect a minimum of 3 dscm per run.
14. Units designed to burn liquid fuela. HCl4.4E-04 lb per MMBtu of heat inputFor M26A: Collect a minimum of 2 dscm per run; for M26, collect a minimum of 240 liters per run.
b. Mercury4.8E-07 a lb per MMBtu of heat inputFor M29, collect a minimum of 4 dscm per run; for M30A or M30B, collect a minimum sample as specified in the method; for ASTM D6784 b collect a minimum of 4 dscm.
15. Units designed to burn heavy liquid fuela. CO130 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average1 hr minimum sampling time.
b. Filterable PM (or TSM)1.3E-02 lb per MMBtu of heat input; or (7.5E-05 lb per MMBtu of heat input)Collect a minimum of 2 dscm per run.
16. Units designed to burn light liquid fuela. CO130 ppm by volume on a dry basis corrected to 3 percent oxygen1 hr minimum sampling time.
b. Filterable PM (or TSM)1.3E-03 a lb per MMBtu of heat input; or (2.9E-05 lb per MMBtu of heat input)Collect a minimum of 3 dscm per run.
17. Units designed to burn liquid fuel that are non-continental unitsa. CO130 ppm by volume on a dry basis corrected to 3 percent oxygen, 3-run average based on stack test1 hr minimum sampling time.
b. Filterable PM (or TSM)2.3E-02 lb per MMBtu of heat input; or (8.6E-04 lb per MMBtu of heat input)Collect a minimum of 4 dscm per run.
18. Units designed to burn gas 2 (other) gasesa. CO130 ppm by volume on a dry basis corrected to 3 percent oxygen1 hr minimum sampling time.
b. HCl1.7E-03 lb per MMBtu of heat inputFor M26A, Collect a minimum of 2 dscm per run; for M26, collect a minimum of 240 liters per run.
c. Mercury7.9E-06 lb per MMBtu of heat inputFor M29, collect a minimum of 3 dscm per run; for M30A or M30B, collect a minimum sample as specified in the method; for ASTM D6784 b collect a minimum of 3 dscm.
d. Filterable PM (or TSM)6.7E-03 lb per MMBtu of heat input; or (2.1E-04 lb per MMBtu of heat input)Collect a minimum of 3 dscm per run.

a If you are conducting stack tests to demonstrate compliance and your performance tests for this pollutant for at least 2 consecutive years show that your emissions are at or below this limit, you can skip testing according to § 63.7515 if all of the other provision of § 63.7515 are met. For all other pollutants that do not contain a footnote “a”, your performance tests for this pollutant for at least 2 consecutive years must show that your emissions are at or below 75 percent of this limit in order to qualify for skip testing.

b Incorporated by reference, see § 63.14.

c An owner or operator may determine compliance with the carbon monoxide emissions limit using carbon dioxide as a diluent correction in place of oxygen as described in § 63.7525(a)(1). EPA Method 19 F-factors in 40 CFR part 60, appendix A-7, and EPA Method 19 equations in 40 CFR part 60, appendix A-7, must be used to generate the appropriate CO2 correction percentage for the fuel type burned in the unit, and must also take into account that the 3% oxygen correction is to be done on a dry basis. The methodology must account for any CO2 being added to, or removed from, the emissions gas stream as a result of limestone injection, scrubber media, etc. This methodology must be detailed in the site-specific monitoring plan developed according to § 63.7505(d).

[87 FR 60857, Oct. 6, 2022]
authority: 42 U.S.C. 7401
source: 57 FR 61992, Dec. 29, 1992, unless otherwise noted.
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