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:

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:

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

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:

Where:

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

Where:

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

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

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

TC = Total carbon; see following equation:

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:

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

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:

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.

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.

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.