Shivam Sinha
National Institute Of Technology (NIT), Surathkal
Shivam Sinha has created this Calculator and 100+ more calculators!
Pragati Jaju
College Of Engineering (COEP), Pune
Pragati Jaju has verified this Calculator and 200+ more calculators!

8 Other formulas that you can solve using the same Inputs

Compressibility factor using B(0) and B(1) of Pitzer correlations for second virial coefficient
Compressibility Factor=1+((Pitzer correlations coefficient B(0)*Reduced Pressure)/Reduced Temperature)+((Acentric factor*Pitzer correlations coefficient B(1)*Reduced Pressure)/Reduced Temperature) GO
Z(0) when B(0) is given using Pitzer correlations for second virial coefficient
Pitzer correlations coefficient Z(0)=1+((Pitzer correlations coefficient B(0)*Reduced Pressure)/Reduced Temperature) GO
B(0) when Z(0) is given using Pitzer correlations for second virial coefficient
Pitzer correlations coefficient B(0)=((Pitzer correlations coefficient Z(0)-1)*Reduced Temperature)/Reduced Pressure GO
Z(1) when B(1) is given using Pitzer correlations for second virial coefficient
Pitzer correlations coefficient Z(1)=(Pitzer correlations coefficient B(1)*Reduced Pressure)/Reduced Temperature GO
B(1) when Z(1) is given using Pitzer correlations for second virial coefficient
Pitzer correlations coefficient B(1)=(Pitzer correlations coefficient Z(1)*Reduced Temperature)/Reduced Pressure GO
Reduced second virial coefficient when the compressibility factor is given
Reduced second virial coefficient=((Compressibility Factor-1)*Reduced Temperature)/Reduced Pressure GO
Compressibility factor when reduced second virial coefficient is given
Compressibility Factor=1+((Reduced second virial coefficient*Reduced Pressure)/Reduced Temperature) GO
B(0) using Abbott equations
Pitzer correlations coefficient B(0)=0.083-0.422/(Reduced Temperature^1.6) GO

1 Other formulas that calculate the same Output

B(1) when Z(1) is given using Pitzer correlations for second virial coefficient
Pitzer correlations coefficient B(1)=(Pitzer correlations coefficient Z(1)*Reduced Temperature)/Reduced Pressure GO

B(1) using Abbott equations Formula

Pitzer correlations coefficient B(1)=0.139-0.172/(Reduced Temperature^4.2)
B<sup>1</sup>=0.139-0.172/(T<sub>R</sub>^4.2)
More formulas
Reduced Temperature GO
Reduced Pressure GO
Acentric factor when saturated reduced pressure is given at reduced temperature 0.7 GO
Saturated reduced pressure at reduced temperature 0.7 when the acentric factor is given GO
Compressibility factor using Pitzer correlations for the compressibility factor GO
Acentric factor using Pitzer correlations for the compressibility factor GO
Compressibility factor when the second virial coefficient is given GO
Compressibility factor when reduced second virial coefficient is given GO
Reduced second virial coefficient when the second virial coefficient is given GO
Second virial coefficient when the reduced second virial coefficient is given GO
Reduced second virial coefficient using B(0) and B(1) GO
Acentric factor using B(0) and B(1) of Pitzer correlations for second virial coefficient GO
Compressibility factor using B(0) and B(1) of Pitzer correlations for second virial coefficient GO
Z(0) when B(0) is given using Pitzer correlations for second virial coefficient GO
B(0) when Z(0) is given using Pitzer correlations for second virial coefficient GO
Z(1) when B(1) is given using Pitzer correlations for second virial coefficient GO
B(1) when Z(1) is given using Pitzer correlations for second virial coefficient GO
B(0) using Abbott equations GO
Second virial coefficient when the compressibility factor is given GO
Reduced second virial coefficient when the compressibility factor is given GO

Why we modify the second virial coefficient to reduced second virial coefficient?

The tabular nature of the generalized compressibility-factor correlation is a disadvantage, but the complexity of the functions Z(0) and Z(1) precludes their accurate representation by simple equations. Nonetheless, we can give approximate analytical expression to these functions for a limited range of pressures. So we modify the second virial coefficient to reduced the second virial coefficient.

How to Calculate B(1) using Abbott equations?

B(1) using Abbott equations calculator uses Pitzer correlations coefficient B(1)=0.139-0.172/(Reduced Temperature^4.2) to calculate the Pitzer correlations coefficient B(1), The B(1) using Abbott equations formula is expressed as a function of reduced temperature which is given in Abbott equations. Pitzer correlations coefficient B(1) and is denoted by B1 symbol.

How to calculate B(1) using Abbott equations using this online calculator? To use this online calculator for B(1) using Abbott equations, enter Reduced Temperature (TR) and hit the calculate button. Here is how the B(1) using Abbott equations calculation can be explained with given input values -> -866.346104 = 0.139-0.172/(0.131376^4.2).

FAQ

What is B(1) using Abbott equations?
The B(1) using Abbott equations formula is expressed as a function of reduced temperature which is given in Abbott equations and is represented as B1=0.139-0.172/(TR^4.2) or Pitzer correlations coefficient B(1)=0.139-0.172/(Reduced Temperature^4.2). Reduced Temperature is the ratio of the actual temperature of the fluid to its critical temperature. It is dimensionless.
How to calculate B(1) using Abbott equations?
The B(1) using Abbott equations formula is expressed as a function of reduced temperature which is given in Abbott equations is calculated using Pitzer correlations coefficient B(1)=0.139-0.172/(Reduced Temperature^4.2). To calculate B(1) using Abbott equations, you need Reduced Temperature (TR). With our tool, you need to enter the respective value for Reduced Temperature and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Pitzer correlations coefficient B(1)?
In this formula, Pitzer correlations coefficient B(1) uses Reduced Temperature. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Pitzer correlations coefficient B(1)=(Pitzer correlations coefficient Z(1)*Reduced Temperature)/Reduced Pressure
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