of greater than or equal to 30 liters per cylinder?
Owners and operators of stationary CI ICE with a displacement of greater than or equal to 30 liters per cylinder must conduct performance tests according to paragraphs (a) through (f) of this section.
(a) Each performance test must be conducted according to the requirements in Sec. 60.8 and under the specific conditions that this subpart specifies in table 7. The test must be conducted within 10 percent of 100 percent peak (or the highest achievable) load.
(b) You may not conduct performance tests during periods of startup, shutdown, or malfunction, as specified in Sec. 60.8(c).
(c) You must conduct three separate test runs for each performance test required in this section, as specified in Sec. 60.8(f). Each test run must last at least 1 hour.
(d) To determine compliance with the percent reduction requirement, you must follow the requirements as specified in paragraphs (d)(1) through (3) of this section.
(1) You must use Equation 2 of this section to determine compliance with the percent reduction requirement:[GRAPHIC] [TIFF OMITTED] TR11JY06.001 Where: Ci = concentration of NOX or PM at the control
device inlet,Co = concentration of NOX or PM at the control
device outlet, andR = percent reduction of NOX or PM emissions.
(2) You must normalize the NOX or PM concentrations at the inlet and outlet of the control device to a dry basis and to 15 percent oxygen (O2) using Equation 3 of this section, or an equivalent percent carbon dioxide (CO2) using the procedures described in paragraph (d)(3) of this section.[GRAPHIC] [TIFF OMITTED] TR11JY06.002 Where: Cadj = Calculated NOX or PM concentration adjusted
to 15 percent O2.Cd = Measured concentration of NOX or PM,
uncorrected.5.9 = 20.9 percent O2-15 percent O2, the defined
O2 correction value, percent.%O2 = Measured O2 concentration, dry basis,
percent.
(3) If pollutant concentrations are to be corrected to 15 percent O2 and CO2 concentration is measured in lieu of O2 concentration measurement, a CO2 correction factor is needed. Calculate the CO2 correction factor as described in paragraphs (d)(3)(i) through (iii) of this section.
(i) Calculate the fuel-specific Fo value for the fuel burned during the test using values obtained from Method 19, Section 5.2, and the following equation: [GRAPHIC] [TIFF OMITTED] TR11JY06.003 Where: Fo = Fuel factor based on the ratio of O2 volume
to the ultimate CO2 volume produced by the fuel at
zero percent excess air.0.209 = Fraction of air that is O2, percent/100.Fd = Ratio of the volume of dry effluent gas to the gross
calorific value of the fuel from Method 19, dsm\3\/J (dscf/
10\6\ Btu).Fc = Ratio of the volume of CO2 produced to the
gross calorific value of the fuel from Method 19, dsm\3\/J
(dscf/10\6\ Btu).
(ii) Calculate the CO2 correction factor for correcting measurement data to 15 percent O2, as follows: [GRAPHIC] [TIFF OMITTED] TR11JY06.004 Where: XCO2 = CO2 correction factor, percent.5.9 = 20.9 percent O2-15 percent O2, the defined
O2 correction value, percent.
(iii) Calculate the NOX and PM gas concentrations adjusted to 15 percent O2 using CO2 as follows:[GRAPHIC] [TIFF OMITTED] TR11JY06.005 Where: Cadj = Calculated NOX or PM concentration adjusted
to 15 percent O2.Cd = Measured concentration of NOX or PM,
uncorrected.%CO2 = Measured CO2 concentration, dry basis,
percent.
(e) To determine compliance with the NOX mass per unit output emission limitation, convert the concentration of NOX in the engine exhaust using Equation 7 of this section: [GRAPHIC] [TIFF OMITTED] TR11JY06.006 Where: ER = Emission rate in grams per KW-hour.Cd = Measured NOX concentration in ppm.1.912x10-3 = Conversion constant for ppm NOX to
grams per standard cubic meter at 25 degrees Celsius.Q = Stack gas volumetric flow rate, in standard cubic meter per hour.T = Time of test run, in hours.KW-hour = Brake work of the engine, in KW-hour.
(f) To determine compliance with the PM mass per unit output emission limitation, convert the concentration of PM in the engine exhaust using Equation 8 of this section:[GRAPHIC] [TIFF OMITTED] TR11JY06.007 Where: ER = Emission rate in grams per KW-hour.Cadj = Calculated PM concentration in grams per standard
cubic meter.Q = Stack gas volumetric flow rate, in standard cubic meter per hour.T = Time of test run, in hours.KW-hour = Energy output of the engine, in KW. [71 FR 39172, July 11, 2006, as amended at 76 FR 37971, June 28, 2011]
Notification, Reports, and Records for Owners and Operators