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TITLE 40 - PROTECTION OF ENVIRONMENT
CHAPTER I - ENVIRONMENTAL PROTECTION AGENCY
PART 63 - NATIONAL EMISSION STANDARDS FOR HAZARDOUS AIR POLLUTANTS FOR SOURCE CATEGORIES
subpart zzzz - NATIONAL EMISSIONS STANDARDS FOR HAZARDOUS AIR POLLUTANTS FOR STATIONARY RECIPROCATING INTERNAL COMBUSTION ENGINES
Table 6 to Subpart ZZZZ of Part 63 - Continuous Compliance With Emission Limitations and Operating Limitations
[As stated in 63.6640, you must continuously comply with the emissions and operating limitations as required by the following] ------------------------------------------------------------------------ You must demonstrate For each . . . Complying with the continuous requirement to . . . compliance by . . .
------------------------------------------------------------------------ 1. 2SLB and 4SLB stationary a. Reduce CO i. Conducting RICE and CI stationary RICE. emissions and using semiannual an oxidation performance tests catalyst, and using for CO to a CPMS. demonstrate that the required CO percent reduction is achieved \1\; and ii. Collecting the catalyst inlet temperature data according to 63.6625(b); and iii. Reducing these data to 4-hour rolling averages; and iv. Maintaining the 4-hour rolling averages within the operating limitations for the catalyst inlet temperature; and v. Measuring the pressure drop across the catalyst once per month and demonstrating that the pressure drop across the catalyst is within the operating limitation established during the performance test.
2. 2SLB and 4SLB stationary a. Reduce CO i. Conducting RICE and CI stationary RICE. emissions and not semiannual using an oxidation performance tests catalyst, and using for CO to a CPMS. demonstrate that the required CO percent reduction is achieved \1\; and ii. Collecting the approved operating parameter (if any) data according to 63.6625(b); and iii. Reducing these data to 4-hour rolling averages; and iv. Maintaining the 4-hour rolling averages within the operating limitations for the operating parameters established during the performance test.
3. 2SLB and 4SLB stationary a. Reduce CO i. Collecting the RICE and CI stationary RICE. emissions and using monitoring data a CEMS. according to 63.6625(a), reducing the measurements to 1- hour averages, calculating the percent reduction of CO emissions according to 63.6620; and ii. Demonstrating that the catalyst achieves the required percent reduction of CO emissions over the 4-hour averaging period; and iii. Conducting an annual RATA of your CEMS using PS 3 and 4A of 40 CFR part 60, appendix B, as well as daily and periodic data quality checks in accordance with 40 CFR part 60, appendix F, procedure 1.
4. 4SRB stationary RICE..... a. Reduce i. Collecting the formaldehyde catalyst inlet emissions and using temperature data NSCR. according to 63.6625(b); and ii. Reducing these data to 4-hour rolling averages; and iii. Maintaining the 4-hour rolling averages within the operating limitations for the catalyst inlet temperature; and iv. Measuring the pressure drop across the catalyst once per month and demonstrating that the pressure drop across the catalyst is within the operating limitation established during the performance test.
5. 4SRB stationary RICE..... a. Reduce i. Collecting the formaldehyde approved operating emissions and not parameter (if any) using NSCR. data according to 63.6625(b); and ii. reducing these data to 4-hour rolling averages; iii. Maintaining the 4-hour rolling averages within the operating limitations for the operating parameters established during the performance test.
6. 4SRB stationary RICE with Reduce formaldehyde Conducting a brake horsepower >=5,000. emissions. semiannual performance tests for formaldehyde to demonstrate that the required formaldehyde percent reduction is achieved \1\.
7. Stationary RICE.......... Limit the i. Conducting concentration of semiannual formaldehyde in the performance tests stationary RICE for formaldehyde to exhaust and using demonstrate that oxidation catalyst your emissions or NSCR. remain at or below the formaldehyde concentration limit \1\; and ii. Collecting the catalyst inlet temperature data according to 63.6625(b); and iii. Reducing these data to 4-hour rolling averages; and iv. Maintaining the 4-hour rolling averages within the operating limitations for the catalyst inlet temperature; and v. Measuring the pressure drop across the catalyst once per month and demonstrating that the pressure drop across the catalyst is within the operating limitation established during the performance test.
8. Stationary RICE.......... Limit the i. Conducting concentration of semiannual formaldehyde in the performance tests stationary RICE for formaldehyde to exhaust and not demonstrate that using oxidation your emissions catalyst or NSCR. remain at or below the formaldehyde concentration limit \1\; and ii. Collecting the approved operating parameter (if any) data according to 63.6625(b); and ii. Reducing these data to 4-hour rolling averages; and iii. Maintaining the 4-hour rolling averages within the operating limitations for the operating parameters established during the performance test.
------------------------------------------------------------------------ \1\ After you have demonstrated compliance for two consecutive tests, you may reduce the frequency of subsequent performance tests to annually. If the results of any subsequent annual performance test indicate the stationary RICE is not in compliance with the CO or formaldehyde emission limitation, or you deviate from any of your operating limitations, you must resume semiannual performance tests.
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