參考文獻 |
Atiqullah, M., H. Hammawa, and H. Hamid, “Modeling the Solubility of Ethylene and Propylene in a Typical Polymerization Diluent:Some Selected Situations,” Eur. Polym. J., 1998, 34, pp.1511-1520
Beret, S., and J. M. Prausnitz, “Perturbed Hard-Chain Theory:An Equation of State for Fluids Containing Small or Large Molecules,” AIChE J., 1975, 21, pp.1123-1132
Bergström, C. H., and J. V. Seppälä, “Effects of Polymerization Conditions When Making Norbornene-Ethylene Copolymers Using the Metallocene Catalyst Ethylene Bis(indenyl) Zirconium Dichloride and MAO to Obtain High Glass Transition Temperature,” J. App. Polym. Sci., 1997, 63, pp.1063-1070
Bogdanović, V. Ž., A. Ž. Tasić, and B. D. Djordjević, “Inversion Phenomena of Ethylene Solubility in Polyethylene,” J. App. Polym. Sci., 1990, 41, pp.3091-3095
Folie, B., C. Gregg, G. Luft, and M. Radosz, “Fluid Equilibria of Poly(Ethylene-co-Vinyl Acetate) Copolymers in Subcritical and Supercritical Ethylene and Ethylene-Vinyl Acetate Mixtures,” Fluid Phase Equil., 1996, 120, pp.11-37
Ghosh, A. W. G. Chapman, and R. N. French, “Gas Solubility in Hydrocarbons-- a SAFT-Based Approach,” Fluid Phase Equilibria, 2003, 209, pp.229-243
Gregorowicz, J., “Solubility of tetracosane in supercritical ethane and ethylene, ” J. of Supercritical Fluids, 2003, 27, pp.13-23
Hasch, B. M., and M. A. McHugh, “Phase Behavior of the Ethylene-Methyl Acrylate System,” Fluid Phase Equil., 1991, 64, pp.251-261
King, M. B., D. A. Alderson, F. H. Fallah, D. M. Kassim, K. M. Kassim, J. R. Sheldon, and R. S. Mahmud, “Some Vapour/Liquid and Vapour/Solid Equilibrium Measurements of Releaevance for Supercritical Extraction Operations, and Their Correlation,” in Paulaitis, M. E., J. M. L. Penninger, R. D. Gray, and J. P. Davidson (Eds.),”Chemical Engineering at Supercritical Fluid Conditions,” Ann Arbor Science, 1983, pp.31-80
Kontogeorgis, G. M., V. I. Harismiadis, A. Fredenslund, and D. P. Tassios, “Application of van der Waals Equation of State to PolymersⅠ:Correlation,” Fluid Phase Equil., 1994, 96, pp.65-92
Laugier, S., D. Richon, and H. Renon, “Vapor-Liquid Equilibrium of Hydrogen-2,2,4-Trimethylpentane and Hydrogen-Toluene Systems at High Pressures and Temperatures,” J. Chem. Eng. Data, 1978, 25, pp.339-340
Lee, L. S., R. F. Shih, H. J. Ou, and T. S. Lee, “Solubility of Ethylene in Mixture of Toluene, Norbornene, and Cyclic Olefin Copolymer at Various Temperatures and Pressures,” Ind. Eng. Chem. Res. 2003, 42, pp.6977-6985
Lee, L. S., H. J. Ou, and H. L. Hsu, “The experiments and correlations of the solubility of ethylene in toluene solvent, ”Fluid Phase Equil., 2005, 231, pp.221-230
Li, J., Z. Tekie, T. I. Mizan, B. I. Morsi, E. E. Maier, and C. P. P. Singh, “Gas-Liquid Mass Transfer in a Slurry Reactor Operating Under Olefinic Polymerization Process Conditions,” Chem. Eng. Sci., 1996, 51, pp.549-559
Liu, J. L., and D. S. H. Wong, “Application of Wong-Sandler Mixing Rules to Polymer Solutions,” Fluid Phase Equil., 1996, 117, pp.92-99
Louli, V., and D. Tassios, “Vapor-Liquid Equilibrium in Polymer-Solvent Systems With a Cubic Equation of State,” Fluid Phase Equil., 2000, 168, pp.165-182
Mizan, T. I., J. Li, B. I. Morsi , M. Y. Chang, E. Maier, and C. P. P. Singh, “Solubilities and Mass Transfer Coefficients of Gases in Liquid Propylene in Surface-Aeration Agitated Reactor,” Chem. Eng. Sci., 1994, 49, pp.821-830
Orbey, N., and S. I. Sandler, “Vapor-Liquid Equilibrium of Polymer Solutions Using a Cubic Equation of State,” AIChE J., 1994, 40, pp.1203-1209
Patel, N. C., and A. S. Teja, “A New Cubic Equation of State for Fluids and Fluid Mixtures,” Chem. Eng. Sci., 1982, 37, pp463-473
Peng, D. Y., and D. B. Robinson, “A New Two-Constant Equation of State,” Ind. Eng. Chem. Fundam., 1976, 15, pp.59-64
Perry, R. H., and D. Green, “Perry’s Chemical Engineering’s Handbook, 6th,” McGraw-Hill, 1984
Reid, R. C., J. M. Prausnitz, and B. E. Poling, “The Properties of Gases and Liquids , 4th, Appendix A:Property Data Bank,” McGraw-Hill, 1987
Saraiva, A., G. M. Kontogeorgis, V. I. Harismiadis, A. Fedenslund, and D. P. Tassios, “Application of van der Waals Equation of State to PolymersⅣ:Correlation and Prediction of Lower Critical Solution Temperatures for Polymer Solutions ,” Fluid Phase Equil., 1996, 115, pp.73-93
Sato, Y., M. Yurugi, K. Fujiwara, S. Takishima, and H. Masuoka, “Solubilities of Carbon Dioxide and Nitrogen in Polystyrene under high Temperature and Pressure,” Fluid Phase Equil., 1996, 125, pp.129-138
Tyvina, T. N., A. A. Naumova, and S. A. Polyakov, “Critical Effects and Phase and Volume Behavior of Ethylene in Toluene,” J. App. Chem. Ussr, 1979, 52, pp.910-913
Wei, Y. S., and R. J. Sadus, “Equations of State for Calculation of Fluid-Phase Equilibria,” AIChE J., 2000, 46, pp.169-196
Wong, D. S. H., and S. I. Sandler, “A Theoretically Correct Mixing Rule for Cubic Equation of State,” AIChE J., 1992, 38, pp.671-680
Yethiraj, A., and C. K. Hall, “Generalized Flory Equation of State for Square-Well Chains,” J. Chem. Phys., 1991, 95, pp.8494-8506
Zheng, D. Q., W. D. Ma, R. Wei, and T. M. Guo, “Solubility study of methane, carbon dioxide and nitrogen in ethylene glycol at elevated temperatures and pressures,” Fluid Phase Equil., 1999, 155, pp.277-286
Zhong C., and H. Masuoka, “A New Mixing Rule for Cubic Equation of State and its Application to Vapor-Liquid Equilibria of Polymer Solutions,” Fluid Phase Equil., 1996a, 123, pp.59-69
Zhong C., and H. Masuoka, “Prediction of Henry’s Constants for Polymer-Containing Systems using the SRK Equation of State Coupled with a New Modified UNIFAC Model,” Fluid Phase Equil., 1996b, 126, pp.1-12
Zhong C., and H. Masuoka, “Modeling of Gas Solubilities in Polymers with Cubic Equation of State,” Fluid Phase Equil., 1998, 144, pp.49-57 |