Geodesic
Lennard-Jones real gas equations of state
Matematičeskoe modelirovanie, Tome 20 (2008) no. 12, pp. 55-75.

Voir la notice de l'article provenant de la source Math-Net.Ru

Eight real gas equations of state based on Lennard-Jones intermolecular potential are compared. The database on thermodynamic properties of industrial fluids is prepared. The database was used to estimate the real gas equations of state. The recommendations on the use of the equations of state are proposed. 
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G. V. Belov. Lennard-Jones real gas equations of state. Matematičeskoe modelirovanie, Tome 20 (2008) no. 12, pp. 55-75. http://geodesic.mathdoc.fr/item/MM_2008_20_12_a4/

[1] Rid R., Prausnits Dzh., Shervud T., Svoistva gazov i zhidkostei, Khimiya, L., 1982, 592 pp.

[2] Valderrama J. O., “The state of the cubic equations of state”, Industrial and Engineering Chemistry Research, 42 (2003), 1603–1618 | DOI

[3] Wei Y. S., Sadus R. J., “Equations of state for the calculation of fluid-phase equilibria”, AIChE J., 46 (2000), 169–196 | DOI

[4] Lyubimova I. A., Zitserman V. Yu., Baibuz V. F., Uravneniya sostoyaniya ekstremalno szhatykh gazov, Obzory po teplofizicheskim svoistvam veschestv, 5(73), IVTAN, M., 1988, 80 pp.

[5] Nedostup V. I., Galkevich E. P., Kaminskii E. S., Termodinamicheskie svoistva gazov pri vysokikh temperaturakh i davleniyakh, Nauk. Dumka, Kiev, 1990, 196 pp.

[6] Alemasov V. E., Dregalin A. F., Tishin A. P. i dr., Termodinamicheskie i teplofizicheskie svoistva produktov sgoraniya, T. 1, VINITI, M., 1971, 266 pp.

[7] Girshfelder Dzh., Kertiss Ch., Berd R., Molekulyarnaya teoriya gazov i zhidkostei, Inostrannaya literatura, M., 1961, 921 pp.

[8] Meison E., Sperling T., Virialnoe uravnenie sostoyaniya, Mir, M., 1972, 280 pp.

[9] Barker J. A., Monaghan J. J., “Fourth Virial Coefficient for the 12-6 Potential”, Journal of Chemical Physics, 36:10 (1962), 2564–2571 | DOI

[10] Barker J. A., Leonard P. J., Pompe A., “Fifth Virial Coefficient”, Journal of Chemical Physics, 44:11 (1966), 4206–4211 | DOI

[11] Kolafa J., Nezbeda I., “The Lennard-Jones fluid: An accurate analytic and theoretically-based equation of state”, Fluid Phase Equilibria, 100 (1994), 1–34 | DOI

[12] Powell E. G., Wilmot G., Haar L. et al., “Equation of State and Thermodynamic Data for Internal Ballistics Calculations”, Interior Ballistics of Guns, New York, 1979, 325–348

[13] Freedman E., “Thermodynamic Properties of Military Gun Propellants”, Gun Propulsion Technology, Washington, 1988, 103–132

[14] Nedostup V. I., Galkevich E. P., “Novoe uravnenie sostoyaniya realnykh gazov”, Doklady AN USSR, 1978, no. 2A, 179–182

[15] Nebelenchuk V. F., “Analiticheskoe predstavlenie virialnykh koeffitsientov dlya potentsiala Lennard-Dzhonsa (12:6)”, Zhurnal fizicheskoi khimii, 62:2 (1988), 524–526

[16] Xiong W., Xinping L., Bi H. et al., “Review and look forward to the progress of VLW equation of state”, Chinese journal of high pressure physics, 13:1 (1999), 55–58

[17] Xiong W., Xinping L., Bi H. et al., Development of VLW equation of state, http: www.vniitf.ru/rig/konfer/7zst/reports/s6/6-29.pdf

[18] Sys J., Malijevsky A., “Equation of State of a Lennard-Jones 12-6 pairwise additive fluid”, Collection Czechslov. Chem. Commun., 45 (1980), 977–983

[19] Johnson K., Zollweg J. A., Gubbins K. E., “The Lennard-Jones equation of state revisited”, Molecular physics, 78:3 (993), 591–618 | DOI

[20] Sun T., Teja A. S., “An equation of state for real fluids based on Lennard-Jones potential”, Journal of Physical Chemistry, 100 (1996), 17365–17372 | DOI

[21] Bokis C. P., Donohue M. D., “A Closed-form equation of state for Lennard-Jones molecules based on perturbation theory”, Journal of Physical Chemistry, 99 (1995), 12655–12660 | DOI

[22] Voertler H. L., Nezbeda I., Lisal M., “The exp-6 potential fluid at very high pressures: computer simulation and theory”, Molecular physics, 92:5 (1997), 813–824 | DOI

[23] Zubarev V. N., Kozlov A. D., Kuznetsov V. M. i dr., Teplofizicheskie svoistva tekhnicheski vazhnykh gazov pri vysokikh temperaturakh i davleniyakh, Energoatomizdat, M., 1989, 232 pp.

[24] Tsiklis D. S., Plotnye gazy, Khimiya, M., 1977, 168 pp.

[25] Lemmon E. W., “Short fundamental equations of state for 20 industrial fluids”, Journal of Chemical and Engineering Data, 51 (2006), 785–850 | DOI