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One of the cubic equations of real gas state defining the Compressibility factor  Z(p, T) as a function of Gas pressure  p and Gas temperature  T:

(1) Z^3 - (1-B) \, Z^2 +(A-2B-3B^2) \, Z -(AB-B^2-B^3) = 0
(2) A= 0.45724 \cdot \alpha \cdot \frac{p_r}{T_r^2}
(3) B=0.07780 \cdot \frac{p_r}{T_r}
(4) \alpha = \left( 1 + \kappa \, (1-T_r^{0.5}) \right)^2

where

Z

Compressibility factor

p_c

Critical pressure

p

Gas pressure

T_c

Сritical temperature


p_r = p/p_c

Reduced pressure

T

Gas temperature

T_r = T/T_c

Reduced Temperature

R

Gas constant

\omega

accentric factor



Once compressibility Z-factor Z(p, T) is known the gas density  \rho can be calculated as:

(5) \rho(p, T) = \frac{1}{Z(p,T)} \cdot \frac{M}{R} \cdot \frac{p}{T}

where

M

Gas molar mass


See also

Natural Science / Physics / Thermodynamics / Equation of State / Real Gas EOS @model

Real Gas ]







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