Logarithmic Mean Partial Pressure Difference in Heat and Mass Transfer Formulas

Logarithmic Mean Partial Pressure Difference is defined as the log of mean of partial pressures of a component in different mixtures. And is denoted by P_bm. Logarithmic Mean Partial Pressure Difference is usually measured using the Pascal for Pressure. Note that the value of Logarithmic Mean Partial Pressure Difference is always negative.

Formulas to find Logarithmic Mean Partial Pressure Difference in Heat and Mass Transfer

fxLogarithmic Mean Partial Pressure DifferenceGo

List of variables in Heat and Mass Transfer formulas

fx Partial Pressure of Component B in 2 Go

fx Partial Pressure of Component B in 1 Go

FAQ

What is the Logarithmic Mean Partial Pressure Difference?

Logarithmic Mean Partial Pressure Difference is defined as the log of mean of partial pressures of a component in different mixtures. Logarithmic Mean Partial Pressure Difference is usually measured using the Pascal for Pressure. Note that the value of Logarithmic Mean Partial Pressure Difference is always negative.

Can the Logarithmic Mean Partial Pressure Difference be negative?

Yes, the Logarithmic Mean Partial Pressure Difference, measured in Pressure can be negative.

What unit is used to measure Logarithmic Mean Partial Pressure Difference?

Logarithmic Mean Partial Pressure Difference is usually measured using the Pascal[Pa] for Pressure. Kilopascal[Pa], Bar[Pa], Pound Per Square Inch[Pa] are the few other units in which Logarithmic Mean Partial Pressure Difference can be measured.

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