Subject Areas : Journal of Physical Chemistry & Eleectrochemistry
1 - Department of Chemistry, Islamic Azad University, Marvdasht Branch, Marvdasht, Iran
Abstract
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Keywords:
Abstract :
References
[1] G. Ihm, Y. Song, and E.A. Mason, Equation of state
for mixtures of non-polar molecular fluids, Mol.
Phys. 75 (1992) 897-915.
[2] H. Eslami, M.M. Papari, and A. Boushehri, On the
Equation of State for Quantum Systems, J. Phys.
Soc. Jpn. 69 (2000) 1731-1734.
[3] M. H. Ghatee, and A. Boushehri, An analytical
equation of state for molten alkali metals, Int. J.
Thermophys.16 (1995) 1429-1438.
[4] M. H. Ghatee, and A. Boushehri, Equation of state
for compressed liquids from surface tension, Int.
J. Thermophys. 17 (1996) 945-957.
[5] M.H. Mousazadeh and A. Boushehri, A correlation of
densities of liquid natural gas mixtures from surface
tension, Fluid Phase Equil. 168 (2000)125-134.
[6] A. Boushehri, F. S. Hashemi and T. Keshavarzi,
Prediction of hydrocarbon and CFC liquid mixtures
densities, Fluid Phase Equil. 129 (1997) 61-67.
[7] H. Eslami, F. Sabzi, and A. Boushehri, The ISM
Equation of State Applied to Refrigerants Int. J.
Thermophys. 20 (1999) 1547-1555.
[8] H. Eslami and A. Boushehri, Equation of state for
compressed liquid alkali metals, Fluid Phase Equil.
152 (1998) 235-242.
[9] S. Sheikh, M.M. Papari, and A. Boushehri, Equation
of State and Pressure-Volume-Temperature
Properties of Refrigerants Based on Speed of
Sound Data, Ind. Eng. Chem. Res. 41, 3274 (2002).
[10] H. Eslami, Equation of State for Nonpolar Fluids:
Prediction from Boiling Point Constants, Int. J.
Thermophys. 21 (2000) 1123-1137.
[11] A. Boushehri and E.A. Mason, Equation of state
for compressed liquids and their mixtures from the
cohesive energy density, Int. J. Thermophys. 14
(1993) 685-697.
[12] Z. Sharafi and A. Boushehri, Saturated Liquid
Densities for 33 Binary Refrigerant Mixtures Based
on the ISM Equation of State, Int. J. Thermophys.
26, (2005) 785-794.
[13] D. A. McQuarrie, Statistical Mechanics (Harper
Collins, New York, 1976).
[14] J. D. Weeks, D. Chandler, and H. C. Andersen,
Role of Repulsive Forces in Determining the
Equilibrium Structure of Simple Liquids, J. Chem.
Phys. 54 (1971) 5237-5247.
[15] Y. Song and E. A. Mason, Statistical mechanical
theory of a new analytical equation of state J.
Chem. Phys. 91 (1989) 7840-7853.
[16] Y. Song and E. A. Mason, Equation of state for
luids of spherical particles in d dimensions, J.
Chem. Phys. 93 (1990) 686-688.
[17] R. A. Aziz, A highly accurate interatomic potential
for argon, J. Chem. Phys. 99 (1993) 4518-4525.
[18] G. Ihm, Y. Song, and E.A. Mason, A new strong
principle of corresponding states for nonpolar
fluids, J. Chem. Phys. 94, (1991) 3839-3848.
[19] E.W. Lemmon, M.O. McLinden, and M.L. Huber,
NIST Standard Reference Database 23 (REFPROP
Version 7.0), National Institute of Standards and
Technology Boulder, Colorado 80305, 2002.
[20]http://www.tu_dresden.de/mw/iem/kkt/
mitarbeiter/lib/kraus/kaeltemittel.html
[21] H. L. Zhang, H. Sato, and K. Watanabe, Vapor Pressure
Measurements of 1,1,1,2,3,3-Hexafluoropropane
from 300 to 410 K, J. Chem. Eng. Data. 40, (1996)
1281-1284.
[22] G. D. Nicola, and G. Passerini, Saturated
Pressure and Gas Phase P−V−T Data for
1,1,2,2,3-Pentafluoropropane (R-245ca), J. Chem.
Eng. Data. 47 (2002) 882-886.
[23] B. Zhong, J.M. Bowman, and D.Williams, Paper
presented at the International Conference and
Exposition Polyurethanes Expo 2001, Columbus,
Ohio, September 30 - October 3, (2001).
[24] Sr. G.J. Zyhowski, M.W. Spatz, and S. Yana
Motta, Paper presented at the Ninth International
Refrigeration and Air Conditioning Conference at
Purdue. West Lafayette, Indiana, July, (2002) 16-19.
[25] L.J. Brasz, and W.M. Bilbow, paper R068
