1. Calculate Z and V for ethylene at 25°C and 12 bar by the following equations: The truncated virial equation with the following experimental values of virial coefficients: B = −140 cm 3 ・mol−1, C = 7200 cm6 ・mol−2 ?=1 + B/V + C/V2 The truncated virial equation, Z = 1 + BP/RT with a value of B from the generalized Pitzer correlation for the second virial coefficient. The Redlich/Kwong equation
1. Calculate Z and V for ethylene at 25°C and 12 bar by the following equations: The truncated virial equation with the following experimental values of virial coefficients: B = −140 cm 3 ・mol−1, C = 7200 cm6 ・mol−2 ?=1 + B/V + C/V2 The truncated virial equation, Z = 1 + BP/RT with a value of B from the generalized Pitzer correlation for the second virial coefficient. The Redlich/Kwong equation
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1. Calculate Z and V for ethylene at 25°C and 12 bar by the following equations:
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The truncated virial equation with the following experimental values of virial coefficients: B = −140 cm 3 ・mol−1, C = 7200 cm6 ・mol−2 ?=1 + B/V + C/V2
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The truncated virial equation, Z = 1 + BP/RT with a value of B from the generalized Pitzer correlation for the second virial coefficient.
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The Redlich/Kwong equation
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The Soave/Redlich/Kwong equation
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The Peng/Robinson equation
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