(a) Derive the final test results through the steps described in this section.

(b) Air and fuel flow method. If both air and fuel flow mass rates are measured, the following equations are used to determine the weighted emission values for the test engine:

eCFR graphic er04oc96.015.gif

Where:

WHC = Mass rate of HC in exhaust [g/hr],

GAIRD = Intake air mass flow rate on dry basis [g/hr],

GFUEL = Fuel mass flow rate [g/hr],

MHCexh = Molecular weight of hydrocarbons in the exhaust; see the following equation:

MHCexh = 12.01 + 1.008 × α

Where:

α = Hydrocarbon/carbon atomic ratio of the fuel.

Mexh = Molecular weight of the total exhaust; see the following equation:

eCFR graphic er08no02.001.gif

Where:

WHC = HC volume concentration in exhaust, ppmC wet

WCO = CO percent concentration in the exhaust, wet

DCO = CO percent concentration in the exhaust, dry

WCO2 = CO2 percent concentration in the exhaust, wet

DCO2 = CO2 percent concentration in the exhaust, dry

WNOX = NO volume concentration in exhaust, ppm wet

WH2 = H2 percent concentration in exhaust, wet

K = correction factor to be used when converting dry measurements to a wet basis. Therefore, wet concentration = dry concentration × K, where K is:

eCFR graphic er04oc96.018.gif

DH2 = H2 percent concentration in exhaust, dry, calculated from the following equation:

eCFR graphic er04oc96.019.gif

WCO = Mass rate of CO in exhaust, [g/hr]

MCO = Molecular weight of CO = 28.01

WNOx = Mass rate of NOX in exhaust, [g/hr]

MNO2 = Molecular weight of NO2 = 46.01

KH = Factor for correcting the effects of humidity on NO2 formation for four-stroke gasoline engines; see the equation below:

eCFR graphic er04oc96.020.gif

Where:

H = specific humidity of the intake air in grams of moisture per kilogram of dry air.

For two-stroke gasoline engines, KH should be set to 1.

(c) Fuel flow method. The following equations are to be used when fuel flow is selected as the basis for mass emission calculations using the raw gas method.

eCFR graphic er04oc96.021.gif

Where:

WHC = Mass rate of HC in exhaust, [g/hr]

MF = Molecular weight of test fuel; see following equation:

eCFR graphic er04oc96.022.gif

GFUEL = Fuel mass flow rate, [g/hr]

TC = Total carbon; see following equation:

eCFR graphic er04oc96.023.gif

WHC = HC volume concentration in exhaust, ppmC wet

WCO = CO percent concentration in the exhaust, wet

DCO = CO percent concentration in the exhaust, dry

WCO2 = CO2 percent concentration in the exhaust, wet

DCO2 = CO2 percent concentration in the exhaust, dry

WNOX = NO volume concentration in exhaust, ppm wet

WH2 = H2 percent concentration in exhaust, wet

K = correction factor to be used when converting dry measurements to a wet basis. Therefore, wet concentration = dry concentration × K, where K is:

eCFR graphic er04oc96.024.gif

DH2 = H2 percent concentration in exhaust, dry, calculated from the following equation:

eCFR graphic er04oc96.025.gif

WCO = Mass rate of CO in exhaust, [g/hr]

MCO = Molecular weight of CO = 28.01

WNOx = Mass rate of NOX in exhaust, [g/hr]

MNO2 = Molecular weight of NO2 = 46.01

KH = Factor for correcting the effects of humidity on NO2 formation for four-stroke gasoline engines; see the equation below:

eCFR graphic er04oc96.026.gif

Where:

H = specific humidity of the intake air in grams of moisture per kilogram of dry air.

For two-stroke gasoline engines, KH should be set to 1.

(d) The final reported emission test results must be computed by using the following formula for each individual gas component:

eCFR graphic er04oc96.027.gif

Where:

Ywm = Weighted mass emission level (HC, CO, NOX) for a test [g/kW-hr].

Wi = Average mass flow rate (WHC, WCO, WNOx) of an emission from the test engine during mode i, [g/hr].

fi = Weighting factors for each mode according to §91.410(a)

Pi = Average power measured during mode i, [kW], calculated according to the formula given in §91.423(b). Power for the idle mode shall always be zero for this calculation.

(e) The final reported weighted brake-specific fuel consumption (WBSFC) shall be computed by use of the following formula:

eCFR graphic er04oc96.028.gif

Where:

WBSFC = Weighted brake-specific fuel consumption in grams of fuel per kilowatt-hour (g/kW-hr).

Fi = Fuel mass flow rate of the engine during mode i, [g/hr].

fi = Weighting factors for each mode according to §91.410(a)

Pi = Average power measured during mode i, [kW], calculated according to the formula given in §91.423(b). Power for the idle mode shall always be zero for this calculation.

[61 FR 52102, Oct. 4, 1996, as amended at 67 FR 68340, Nov. 8, 2002; 70 FR 40452, July 13, 2005]


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