References

1. 1. Economou I.G. Cubic and Generalized van der Waals Equations of State // Appl. Thermodyn. Fluids. 2010. P. 53.
2. 2. Diamantonis N.I., Boulougouris G.C., Mansoor E., Tsangaris D.M., Economou I.G. Evaluation of Cubic, SAFT, and PC-SAFT Equations of State for the Vapor–Liquid Equilibrium Modeling of CO2 Mixtures with Other Gases // Ind. Eng. Chem. Res. 2013. V. 52. P. 3933.
3. 3. Lemmon E.W., Span R. Multi-parameter Equations of State for Pure Fluids and Mixtures // Appl. Thermodyn. Fluids. 2010. P. 53.
4. 4. Kunz O., Wagner W. The GERG-2008 Wide-range Equation of State for Natural Gases and Other Mixtures: An Expansion of GERG-2004 // J. Chem. Eng. Data. 2012. V. 57. P. 3032.
5. 5. Thol M., Richter M., May E.F., Lemmon E.W., Span R. EOS-LNG: a Fundamental Equation of State for the Calculation of Thermodynamic Properties of Liquefied Natural Gases // J. Phys. Chem. Ref. Data. 2019. V. 48 (36). P. 033102.
6. 6. Moldover M.R., Rainwater J.C. Interfacial Tension and Vapor-liquid Equilibria in the Critical Region of Mixtures // J. Chem. Phys. 1988. V. 88. P. 7772.
7. 7. Agayan V.A., Anisimov M.A., Sengers J.V. Crossover Parametric Equation of State for Ising-like Systems // Phys. Rev. E. 2001. V. 64 (19). P. 026125.
8. 8. Belyakov M.Yu., Kulikov V.D., Muratov A.R., Voronov V.P. Crossover Equation of State of a Multi-component Fluid Mixture in the Vicinity of Liquid–Vapor Critical Points // Chem. Phys. 2018. V. 513. P. 149.
9. 9. Kiselev S.B. Cubic Crossover Equation of State // Fluid Phase Equilib. 1998. V. 147. P. 7.
10. 10. Rainwater J.C. Vapor–Liquid Equilibrium and the Modified Leung Griffiths Model // Supercritical Fluid Technology: Reviews in Modern Theory and Applications / Eds. Bruno T.J., Ely J. Boca Raton: CRC Press, 1991. P. 57.
11. 11. Belyakov M.Yu., Kulikov V.D., Muratov A.R., Sharipov A.F. Thermodynamic Properties of a Model Hydrocarbon Ternary Mixture in the Vicinity of Critical Point: Measurements and Modeling with Crossover Equation of State // Fluid Phase Equil. 2020. V. 518. P. 112630.
12. 12. Беляков М.Ю. Критические аномалии и фазовые диаграммы бинарной смеси // ТВТ. 2023. Т. 61. № 2. С. 198.
13. 13. Ма Ш. Современная теория критических явлений. М.: Мир, 1980. 296 с.
14. 14. Паташинский А.З., Покровский В.Л. Флуктуационная теория фазовых переходов. М.: Наука, 1982. 381 с.
15. 15. Hohenberg P.C., Barmatz M. Gravity Effects near Gas–Liquid Critical Point // Phys. Rev. A. 1972. V. 6. P. 289.
16. 16. Liu A.J., Fisher M.E. The Three-dimensional Ising Model Revised Numerically // Phys. A. 1989. V. 156. P. 35.
17. 17. Guida R., Zinn-Justin J. Critical Exponents of the N-vector Model // J. Phus. A. 1998. V. 31. P. 8103.
18. 18. Anisimov M.A., Sengers J.V. Critical Region // Equations of State for Fluids and Fluid Mixtures. 2000. V. 5(II). P. 381.
19. 19. Belyakov M.Yu., Voronov V.P., Gorodetskii E.E., Kulikov V.D. Phase Behavior and Anomalies of Thermodynamic Properties in a Multi-component Near-critical Fluid Mixture // Chem. Phys. 2009. V. 362. P. 85.
20. 20. Покровский В.Л. О возможности экспериментальной проверки гипотезы конформной инвариантности // Письма в ЖЭТФ. 1973. Т. 17. C. 219.
21. 21. Kim Y.C., Fisher M.E., Orkoulas G. Asymmetric Fluid Criticality. I. Scaling with Pressure Mixing // Phys. Rev. E. 2003. V. 67. P. 61506.
22. 22. Wang J., Cerdeirina C.A., Anisimov M.A., Sengers J.V. Principle of Isomorphism and Complete Scaling for Binary-fluid Criticality // Phys. Rev. E. 2008. V. 77. P. 031127.
23. 23. Sengers Y.V., Levelt Sengers J.M.H. Thermodynamic Behavior of Fluids near the Critical Point // Ann. Rev. Phys. Chem. 1986. V. 37. P. 189.
24. 24. Fisher M.E. Renormalization of Critical Exponents by Hidden Variables // Phys. Rev. 1968. V. 176. P. 237.
25. 25. Van Konynenberg P.H., Scott R.L. Critical Lines and Phase Equilibria in Binary van der Waals Mixtures // Philos. Trans. R. Soc. London. 1980. V. 298. P. 495.