(a) You must determine annual N2O process emissions from each nitric acid train according to paragraphs (a)(1) or (a)(2) of this section.
(1) Use a site-specific emission factor and production data according to paragraphs (b) through (i) of this section.
(2) Request Administrator approval for an alternative method of determining N2O emissions according to paragraphs (a)(2)(i) and (a)(2)(ii) of this section.
(i) You must submit the request within 45 days following promulgation of this subpart or within the first 30 days of each subsequent reporting year.
(ii) If the Administrator does not approve your requested alternative method within 150 days of the end of the reporting year, you must determine the N2O emissions for the current reporting period using the procedures specified in paragraph (a)(1) of this section.
(b) You must conduct an annual performance test for each nitric acid train according to paragraphs (b)(1) through (3) of this section.
(1) You must conduct the performance test at the absorber tail gas vent, referred to as the test point, for each nitric acid train according to Sec. 98.224(b) through (f). If multiple nitric acid trains exhaust to a common abatement technology and/or emission point, you must sample each process in the ducts before the emissions are combined, sample each process when only one process is operating, or sample the combined emissions when multiple processes are operating and base the site-specific emission factor on the combined production rate of the multiple nitric acid trains.
(2) You must conduct the performance test under normal process operating conditions.
(3) You must measure the production rate during the performance test and calculate the production rate for the test period in tons (100 percent acid basis) per hour.
(c) Using the results of the performance test in paragraph (b) of this section, you must calculate an average site-specific emission factor for each nitric acid train ``t'' according to Equation V-1 of this section:[GRAPHIC] [TIFF OMITTED] TR28OC10.025 where: EFN2Ot = Average site-specific N2O
emissions factor for nitric acid train ``t'' (lb
N2O/ton nitric acid produced, 100 percent acid
basis).CN2O = N2O concentration for each test run during
the performance test (ppm N2O).1.14 x 10-7 = Conversion factor (lb/dscf-ppm N2O).Q = Volumetric flow rate of effluent gas for each test run during the
performance test (dscf/hr).P = Production rate for each test run during the performance test (tons
nitric acid produced per hour, 100 percent acid basis).n = Number of test runs.
(d) If nitric acid train ``t'' exhausts to any N2O abatement technology ``N'', you must determine the destruction efficiency for each N2O abatement technology ``N'' according to paragraphs (d)(1), (2), or (3) of this section.
(1) Use the manufacturer's specified destruction efficiency.
(2) Estimate the destruction efficiency through process knowledge. Examples of information that could constitute process knowledge include calculations based on material balances, process stoichiometry, or previous test results provided the results are still relevant to the current vent stream conditions. You must document how process knowledge (if applicable) was used to determine the destruction efficiency.
(3) Calculate the destruction efficiency by conducting an additional performance test on the emissions stream following the N2O abatement technology.
(e) If nitric acid train ``t'' exhausts to any N2O abatement technology ``N'', you must determine the annual amount of nitric acid produced on nitric acid train ``t'' while N2O abatement technology ``N'' is operating according to Sec. 98.224(f). Then you must calculate the abatement utilization factor for each N2O abatement technology ``N'' for each nitric acid train ``t'' according to Equation V-2 of this section.[GRAPHIC] [TIFF OMITTED] TR28OC10.026 where: AFt,N = Abatement utilization factor of N2O
abatement technology ``N'' at nitric acid train ``t''
(fraction of annual production that abatement technology is
operating).Pt = Total annual nitric acid production from nitric acid
train ``t'' (ton acid produced, 100 percent acid basis).Pt,N = Annual nitric acid production from nitric acid train
``t'' during which N2O abatement technology ``N''
was operational (ton acid produced, 100 percent acid basis).
(f) [Reserved]
(g) You must calculate N2O emissions for each nitric acid train ``t'' according to paragraph (g)(1), (g)(2), (g)(3), or (g)(4) of this section.
(1) If nitric acid train ``t'' exhausts to one N2O abatement technology ``N'' after the test point, you must use the emissions factor (determined in Equation V-1 of this section), the destruction efficiency (determined in paragraph (d) of this section), the annual nitric acid production (determined in paragraph (i) of this section), and the abatement utilization factor (determined in paragraph (e) of this section) according to Equation V-3a of this section:[GRAPHIC] [TIFF OMITTED] TR28OC10.027 where: EN2Ot = Annual N2O mass emissions from
nitric acid train ``t'' according to this Equation V-3a
(metric tons).EFN2Ot = Average site-specific N2O
emissions factor for nitric acid train ''t'' (lb
N2O/ton acid produced, 100 percent acid basis).Pt = Annual nitric acid production from nitric acid train
``t'' (ton acid produced, 100 percent acid basis).DF = Destruction efficiency of N2O abatement technology N
that is used on nitric acid train ``t'' (decimal fraction of
N2O removed from vent stream).AF = Abatement utilization factor of N2O abatement technology
``N'' for nitric acid train ``t'' (decimal fraction of annual
production during which abatement technology is operating).2205 = Conversion factor (lb/metric ton).
(2) If multiple N2O abatement technologies are located in series after your test point, you must use the emissions factor (determined in Equation V-1 of this section), the destruction efficiency (determined in paragraph (d) of this section), the annual nitric acid production (determined in paragraph (i) of this section), and the abatement utilization factor (determined in paragraph (e) of this section), according to Equation V-3b of this section: [GRAPHIC] [TIFF OMITTED] TR28OC10.028 where: EN2Ot = Annual N2O mass emissions from
nitric acid train ``t'' according to this Equation V-3b
(metric tons).EFN2O,t = N2O emissions factor for nitric acid
train ``t'' (lb N2O/ton nitric acid produced).Pt = Annual nitric acid produced from nitric acid train ``t''
(ton acid produced, 100 percent acid basis).DF1 = Destruction efficiency of N2O abatement
technology 1 (decimal fraction of N2O removed from
vent stream).AF1 = Abatement utilization factor of N2O
abatement technology 1 (decimal fraction of time that
abatement technology 1 is operating).DF2 = Destruction efficiency of N2O abatement
technology 2 (decimal fraction of N2O removed from
vent stream).AF2 = Abatement utilization factor of N2O
abatement technology 2 (decimal fraction of time that
abatement technology 2 is operating).DFN = Destruction efficiency of N2O abatement
technology N (decimal fraction of N2O removed from
vent stream).AFN = Abatement utilization factor of N2O
abatement technology N (decimal fraction of time that
abatement technology N is operating).2205 = Conversion factor (lb/metric ton).N = Number of different N2O abatement technologies.
(3) If multiple N2O abatement technologies are located in parallel after your test point, you must use the emissions factor (determined in Equation V-1 of this section), the destruction efficiency (determined in paragraph (d) of this section), the annual nitric acid production (determined in paragraph (i) of this section), and the abatement utilization factor (determined in paragraph (e) of this section), according to Equation V-3c of this section:[GRAPHIC] [TIFF OMITTED] TR28OC10.029 where: EN2Ot = Annual N2O mass emissions from
nitric acid train ``t'' according to this Equation V-3c
(metric tons).EFN2O,t = N2O emissions factor for nitric acid
train ``t'' (lb N2O/ton nitric acid produced).Pt = Annual nitric acid produced from nitric acid train ``t''
(ton acid produced, 100 percent acid basis).DFN = Destruction efficiency of N2O abatement
technology ``N'' (decimal fraction of N2O removed
from vent stream).AFN = Abatement utilization factor of N2O
abatement technology ``N'' (decimal fraction of time that
abatement technology ``N'' is operating).FCN = Fraction control factor of N2O abatement
technology ``N'' (decimal fraction of total emissions from
nitric acid train ``t'' that are sent to abatement technology
``N'').2205 = Conversion factor (lb/metric ton).N = Number of different N2O abatement technologies with a
fraction control factor.
(4) If nitric acid train ``t'' does not exhaust to any N2O abatement technology after the test point, you must use the emissions factor (determined in Equation V-1 of this section), and the annual nitric acid production (determined in paragraph (i) of this section) according to Equation V-3b of this section:[GRAPHIC] [TIFF OMITTED] TR28OC10.030 where: EN2Ot = Annual N2O mass emissions from
nitric acid train ``t'' according to this Equation V-3d
(metric tons).EFN2Ot = Average site-specific N2O
emissions factor for nitric acid train ''t'' (lb
N2O/ton acid produced, 100 percent acid basis).Pt = Annual nitric acid production from nitric acid train
``t'' (ton acid produced, 100 percent acid basis).2205 = Conversion factor (lb/metric ton).
(h) You must determine the annual nitric acid production emissions combined from all nitric acid trains at your facility using Equation V-4 of this section:[GRAPHIC] [TIFF OMITTED] TR30OC09.082 Where: N2O = Annual process N2O emissions from nitric
acid production facility (metric tons).EN2Ot = N2O mass emissions per year for
nitric acid train ``t'' (metric tons).m = Number of nitric acid trains.
(i) You must determine the total annual amount of nitric acid produced on each nitric acid train ``t'' (tons acid produced, 100 percent acid basis), according to Sec. 98.224(f). [74 FR 56374, Oct. 30, 2009, as amended at 75 FR 66466, Oct. 28, 2010; 78 FR 71959, Nov. 29, 2013]