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SIMULATION OF PERVAPORATION PROCESS FOR ETHANOL DEHYDRATION BY USING PILOT TEST RESULTS
Korean Journal of Chemical Engineering, January 1998, 15(1), 28-36(9), 10.1007/BF02705302
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Abstract
This paper focuses on providing a pervaporation simulation method for ethanol dehydration from a practical point of view. The simulation procedure is performed by setting up simulation equations which describe the pervaporation process, obtaining the necessary data from pervaporation batch mode pilot tests, verifying the simulation tool through simulations of continuous mode pilot tests, and comparing the simulation results with the real pilot test results. We considered the mass and energy balances that describe separating an ethanol/water mixture by a pervaporation membrane. The simulation equations were mathematically expressed into simultaneous nonlinear differential equations based on these balances. The necessary data for simulation consist of the thermophysical properties for the ethanol-water mixture and the characteristic data of a PVA composite membrane. The membrane characteristic data are permeation flux and membrane selectivity, which are functions of feed composition and operating conditions. These data were experimentally determined by a batch mode pilot test. The continuous mode pilot tests were simulated and the simulation results were compared to the real test results. The results were fairly good.
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Chang JH, Yoo JK, Ahn SH, Lee KH, Yoo KO, Membr. J.(Korean), 7(1), 31 (1997)
Daubert DE, Danner RP, "Physical and Thermodynamic Properties of Pure Chemicals: Data Compilation, Design Institute for Physical Property Data," AIChE., Hemisphere Publishing Corporation (1991)
Fleming HL, Chem. Eng. Prog., July, 46 (1992)
Fleming HL, Slater CS, "Chapter 10. Pervaporation: Applications and Economics," Membrane Handbook, Ho, W.S.W. and Sirkar, K.K., eds., Van Nostrand Reinhold, New York (1992)
Gmehling J, Onken U, "Vapor-liquid Equilibrium Data Collection, Aqueous-organic Systems," Dechema Chemistry Data Series, Vol. 1, Part 1, DECHEMA, Frankfurt am Main, Germany (1977)
Huang RYM, Jarvis NR, J. Appl. Polym. Sci., 14, 2341 (1970)
Humphrey JL, Seibert AF, Chem. Eng. Prog., March, 32 (1992)
Marin M, Kalantzi K, Gilbert H, J. Membr. Sci., 74, 105 (1992)
Mulder MHV, Smolder CA, J. Membr. Sci., 17, 289 (1984)
Mulder MHV, Franken ACM, Smolder CA, J. Membr. Sci., 23, 41 (1985)
Nguyen TQ, AIChE Symp. Ser., 82(248), 1 (1986)
Rapin JL, "The Betheniville Pervaporation Unit-The First Large Scale Production Plant for the Dehydration of Ethanol," Proceedings of Third International Conference on Pervaporation Processes in the Chemical Industry, Englewood, NJ, 364 (1988)
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Tusel GF, Bruschke HEA, Desalination, 53, 327 (1985)
Wijmans JG, Baker RW, "A Simple Predictive Treatment of the Permeation Process in Pervaporation,", 79, 101 (1993)
Yeom CK, Dickson JM, Brook MA, Korean J. Chem. Eng., 13(5), 482 (1996)
