Accurate Assessment of Joule-Thomson Inversion Temperature at Zero Pressure of Imperfect Gases

Title:Accurate Assessment of Joule-Thomson Inversion Temperature at Zero Pressure of Imperfect Gases

Volume: 11 Issue: 3

Author(s): Bahtiyar Akber Mamedov*Elif Somuncu

Affiliation:

• Department of Physics, Faculty of Arts and Sciences, Gaziosmanpasa University, Tokat,Turkey

Keywords: Second virial coefficient, Joule-Thomson, inversion, temperature, Joule-Thomson coefficient, pressure, inversion temperature, cryogenic engineering.

Abstract:

Background: The aim of this work is to propose an approach for estimating the Joule-Thomson coefficient as an important parameter necessary to the study of changes in fluid temperature at a given change in pressure at constant enthalpy.

Objective: The analytical approach presented in this work is very appropriate for detailed studies of the Joule-Thomson inversion temperature at zero pressure for arbitrary temperature values.

Methods: A new approach is suggested for the accurate determination of the Joule- Thomson inversion temperature at zero pressure using virial coefficient of the Lennard- Jones (12-6) potential.

Results: The usefulness and efficiency of the method are tested by application to various gases Ar, He, Ne, H₂, O₂, CO₂ CO, CH₄, Xe, Kr, N₂ and Air. The results obtained are in well agreement with other approximation and experimental data.

Conclusion: The suggested formula enables correct and rapid calculation of the JT inversion temperature at zero pressure.

Cite this article as:

Mamedov Akber Bahtiyar *, Somuncu Elif, Accurate Assessment of Joule-Thomson Inversion Temperature at Zero Pressure of Imperfect Gases, Current Physical Chemistry 2021; 11 (3) . https://dx.doi.org/10.2174/1877946811666210708111812