Fluid Phase Equilibria, 2005, V 230, N 1-2, March.
1.
Effect of combining rules for cubic equations
of state on the prediction of double retrograde vaporization •
Marcelo F. Alfradique and Marcelo Castier
Pages 1-8
2.
Thermodynamic equations for a confined
fluid at nanometric scale •
Ariel G. Meyra, Guillermo J. Zarragoicoechea
and Victor A. Kuz
Pages 9-14
3.
An improved method to predict second
cross virial coefficients •
Alessandro Vetere
Pages 15-20
4.
Vapour–liquid equilibrium for the ethyl
ethanoate + 1-butene, +cis-2-butene, +trans-2-butene,
+2-methylpropene, +n-butane and +2-methylpropane •
Piia Haimi, Petri Uusi-Kyyny, Juha-Pekka Pokki,
Minna Pakkanen and Kari I. Keskinen
Pages 21-28
5.
Thermodynamic properties of the system NH4NO3 +
(NH4)2SO4 + H2O at 298.15 K •
Mohamed El Guendouzi and Abdelkebir Errougui
Pages 29-35
6.
Volumetric properties of ethanol–water
mixtures under high temperatures and pressures •
Darja Pecar and Valter Dolecek
Pages 36-44
7.
Liquid–liquid equilibria of water + ethanol + reformate •
Monica B. Gramajo de Doz, Carlos M. Bonatti
and Horacio N. Solimo
Pages 45-50
8.
Solubility of thiophene in carbon dioxide and
carbon dioxide + 1-propanol mixtures at
temperatures from 313 to 363 K •
O. Elizalde-Solis and L.A. Galicia-Luna
Pages 51-57
9.
Liquid–liquid equilibria of the ternary system
water + acetic acid + dimethyl adipate •
Erol Ince
Pages 58-63
10.
Vapor pressures and apparent molal volumes
of the solutions of ZnCl2 in ethanol at 298.15 K •
Jaber Jahanbin Sardroodi and Mohammed Taghi Zafarani-Moattar
Pages 64-71
11.
High pressure (solid + liquid) equilibria of
n-alkane mixtures: experimental results,
correlation and prediction •
Piotr Morawski, Joao A.P. Coutinho and Urszula Domanska
Pages 72-80
12.
PVTx measurements for N2O + CH3F, N2O + CH2F2,
and N2O + CHF3 binary systems •
G. Di Nicola, G. Giuliani, F. Polonara and R. Stryjek
Pages 81-89
13.
Method to determine quadruple points of a
two-component system containing a simple
hydrate phase and behavior of the system
near these points •
Fumio Kiyono, Hideo Tajima, Keiichi Ogasawara
and Akihiro Yamasaki
Pages 90-98
14.
Phase diagram for the system
KVO3 + NH4HCO3 + NH4VO3 + KHCO3 + H2O at 303 K •
Mieczyslaw Trypuc and Urszula Kielkowska
Pages 99-104
15.
Phase equilibria for binary systems of
octane boosters with 2,2,4-trimethylpentane •
K.V.N. Suresh Reddy, D.H.L. Prasad and A. Krishnaiah
Pages 105-108
16.
Revision of the volumetric method for measurements
of liquid–liquid equilibria in binary systems •
Karel Rehak, Petr Vonka and Jana Dreiseitlova
Pages 109-120
17.
Liquid–liquid equilibria for pseudoternary systems:
isooctane–benzene–(methanol + water) •
Blanca Estela Garcia-Flores, Monica Gramajo de Doz
and Arturo Trejo
Pages 121-130
18.
Activity coefficient at infinite dilution,
azeotropic data, excess enthalpies and
solid–liquid-equilibria for binary systems of
alkanes and aromatics with esters •
Eileen Collinet and Jurgen Gmehling
Pages 131-142
19.
Phase-equilibrium calculations for non-aqueous
and aqueous associating systems using continuous thermodynamics •
D. Browarzik
Pages 143-152
20.
Enthalpy of dilution of (SO2 + H2O) and
(SO2 + NH3 + H2O) in pure water: experimental
results and modeling •
Alvaro Perez-Salado Kamps, Eckehard Meyer,
Viktor Ermatchkov and Gerd Maurer
Pages 153-169
21.
New regularities and an equation of state for liquids •
Elaheh K. Goharshadi, Ali Morsali and Mohsen Abbaspour
Pages 170-175
22.
Solubility of polycyclic aromatics in binary
solvent mixtures using activity coefficient models •
Sami H. Ali, Fahad S. Al-Mutairi and Mohamed A. Fahim
Pages 176-183
23.
Vapour–liquid equilibrium data for the
1,1,1,2 tetrafluoroethane (R134a) + dimethyl ether
(DME) system at temperatures from 293.18 to 358.15 K
and pressures up to about 3 MPa •
Alain Valtz, Leila Gicquel, Christophe Coquelet
and Dominique Richon
Pages 184-191
24.
Studies on the properties of ionic liquid EMIInCl4 •
Shu-Liang Zang, Qing-Guo Zhang, Ming Huang,
Bin Wang and Jia-Zhen Yang
Pages 192-196
25.
Vapor–liquid equilibria and excess volumes of
the binary systems ethanol + ethyl lactate,
isopropanol + isopropyl lactate and n-butanol +
n-butyl lactate at 101.325 kPa •
Susana Pena-Tejedor, Ruth Murga, Maria Teresa Sanz
and Sagrario Beltran
Pages 197-203
26.
Comment on the paper of Savaroglu and Aral
entitled “Densities, speed of sound, and isentropic
compressibilities of the ternary mixture 2-propanol +
acetone + cyclohexane and constituent binary mixtures
at 298.15 and 313.15 K” •
Edward Zorebski and Stefan Ernst
Pages 204-205
27.
Reply to the letter to the editor by E. Zorebski,
S. Ernst about the paper “Densities, speeds of
sound and isentropic compressibilities of the
ternary mixture 2-propanol + acetone + cyclohexane
and the constituent binary mixtures at 298.15
and 313.15 K” [Fluid Phase Equilib.
215 (2004) 253–262] •
Gokhan Savaroglu and Ertunc Aral
Pages 206-208
28.
Electronic data submission to NIST
thermodynamic research center •
Page 209
29.
Corrigendum to “Revised solubility data
and modeling of water in the gas phase of
the methane/water binary system at temperatures
from 283.08 to 318.12 K and pressures up to
34.5 MPa”: [Fluid Phase Equilibria
214 (2003) 101–117] •
A. Chapoy, C. Coquelet and D. Richon
Pages 210-214
30.
Guide for Authors •
Pages 215-221
31.
Author Index • Page 222
32.
Subject Index •
Page 223
33.
Contents continued •
Page 224