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[1]P. Lipp, M. Witte, G. Baldauf and A. A. Povorov, “Treatment of Reservoir Water with a Backwashable MF/UF Spiral Wound Membrane,” Desalination, 179, 83 (2005). [2]A. W. Zularisam, A. F. Ismail and R. Salim, “Behaviours of Natural Organic Matter in Membrane Filtration for Surface Water Treatment – a Review,” Desalination, 194, 211 (2006). [3]R. Parasad and K.K. Sirkar, “Hollow Fibers Solvent Extraction: Performances and Design”, J. Membr. Sci., 50, 153 (1990). [4]H. M. Yeh, Y. Y. Peng and Y. K. Chen, “Solvent Extraction through a Double-pass Parallel-plate Membrane Channel with Recycle”, J. Membr. Sci., 163, 177 (1999). [5]P. S. Kumar, J. A. Hogendoorn, P. H. M. Feron and G. F. Versteeg, “New Absorption Liquids for the Removal of CO2 from Dilute Gas Streams Using Membrane Contactors,” Chem. Eng. Sci., 57, 1639 (2002). [6]Y. S. Kim and S. M. Yang, “Absorption of Carbon Dioxide through Hollow Fiber Membranes Using Various Aqueous Absorbents,” Sep. Purif. Technol., 21, 101 (2000). [7]H. C. Van Der Horst and J. H. Hanemaaijer, “Cross-flow Microfiltration in the Food Industry. State of the Art”, Desalination, 77, 235 (1990). [8]L. E. Applegate, “Membrane Separation Processes”, Chem. Eng., 91, 64 (1984). [9]P. M. Bungay, H. K. Lonsdale and M. N. De Pinho, “Synthetic Membrane: Science, Engineering and Applications,” D. Redel Publishing Company, Holland, 1986. [10]R. P. Popovich, T. G. Christopher and A. L. Babb, “The Effects of Membrane Diffusion and Ultrafiltration Properties on Hemodialyer Design and Performance,” Chem. Eng. Prog. Symp. Ser., 67, 105 (1971). [11]H. Moonen and N. J. Niefind, “Alcohol Reduction in Beer by Means of Dialysis,” Desalination, 41, 327 (1982). [12]B. Dutre and G. Tragardh, “Purification of Gelatin by Ultrafiltration with a Forced Solvent Stream along the Membrane Permeate Side: An Experimental Approach,” J. Food Engr., 25, 233 (1995). [13]T. Kannamori and T. Shinbo, “Mass Transfer of a Solute by Diffusion with Convection around a Single Hollow-Fiber Membrane for Hemodialysis,” Desalination,129 217 (2000). [14]R. Jagannathan and U. R. Shettigar, “Analysis of a Tubular Hemodialyser-Effect of Ultrafiltration and Dialysate Concentration,” Med. & Biol. & Comput., 15, 134 (1977). [15]A. Wüpper, F. Dellanna, C. A. Baldamus and D. Woermann, “Local Transport Processes in High-Flux Hollow Fiber Dialyzers,” J. Membr. Sci. 131, 181 (1997). [16]L. Grimsurd and A. L. Babb, “Velocity and Concentration Profiles for Laminar Flow of a Newtonian Fluid in a Dialyzer,” Chem. Eng. Prog. Symp. Ser., 62, 20 (1966). [17]D. O. Cooney, S. S. Kim and E. J. Davis, “Analysis of Mass Transfer in Hemodialyzers of Laminar Blood Flow and Homogeneous Dialysate,” Chem. Eng. Sci., 29, 1731 (1974). [18]I. Noda and C.C. Gryte, “Mass Transfer in Regular Arrays of Hollow Fibers in Countercurrent Dialysis,” AIChE J., 25, 113 (1979). [19]C. Gostoli and A. Gatta, “Mass Transfer in a Hollow Fiber Dialyzer,” J. Membr. Sci., 6, 133 (1980). [20]Happel, J. “Viscous Flow Relative to Arrays of Cylinders,” AIChE J., 5(2), 174 (1959). [21]J. M. Zheng, Y. Y. Xu, and Z. K. Xu, “Shell Side Mass Transfer Characteristics in a Parallel Flow Hollow Fiber Membrane Module,” Sep. Sci & Tech., 38, 1247 (2003). [22]M. Abbas, and V. P. Tyagi, “Analysis of a Hollow-Fiber Artificial Kidney Performing Simultaneous Dialysis and Ultrafiltration,” Chem. Eng. Sci., 42, 133 (1987). [23]M. Abbas, and V. P. Tyagi, “On the Mass Transfer in a Circular Conduit Dialyzer When Ultrafiltration is Coupled with Dialysis,” Int. J. Heat Mass Transfer, 31, 591 (1988). [24]V. Kumar and S. N. Upadhyay, “Computer Simulation of Membrane Process: Ultrafiltration and Dialysis Units,” Computers and Chem. Eng., 23, 1713(2000). [25]H. M. Yeh, T. W. Chen, and Y. J. Chen, “Mass Transfer for Dialysis with Ultrafiltration Flux Declined in Cross-Flow Membrane Modules”, J. Chem. Eng. Jpn., 33, 440 (2000). [26]Z. Liao, C.K. Poh, Z. Huang, P.A. Hardy, W.R. Clark and D. Gao, “A Numerical and Experimental Study of Mass Transfer in the Artificial Kidney,” Trans. ASME, 125, 472 (2003). [27]H.M. Yeh, T. W. Cheng and Y. C. Chen, “Analysis of Dialysis Coupled with Ultrafiltration in Cross-Flow Membrane Modules,” J. Membr. Sci., 134, 151 (1997). [28]A.S. Berman, “Laminar Flow in Channels with Porous Walls,” J. Applied Physics, 24, 1232 (1953). [29]S. W. Yuan, A. B. Finkelstein and N. Y. Brooklyn, “Laminar Pipe Flow with Injection and Suction through a Porous Wall,” Trans. ASME, 78, 719 (1956). [30]E. M. Sparrow and A. L. Loeffler, “Longitudinal Laminar Flow Between Cylinders Arranged in Regular Array,” AIChE J., 5, 325 (1959). [31]V. Chen and M. Hlavacek, “Application of Voronoi Tessellation for Modeling Randomly Packed Hollow-Fiber Boundles,” AIChE J., 40, 606 (1994). [32]L. Bao and G.G. Lipscomb, “Mass Transfer in Axial Flows through Randomly Packed Fiber Boundles with Constant Wall Concentration,” J. Membr. Sci., 204, 207 (2002). [33]Y. Wang, F. Chen, Y. Wang, G. Luo and Y. Dai, “Effect of Random Packing on Shell-Side Flow and Mass Tansfer in Hollow Fiber Module Described by Normal Distribution Function,” J. Membr. Sci., 216, 81 (2003). [34]Z. Liao, C. K. Poh, P. A. Hardy, W. R. Clark and D. Gao, “A Numerical and Experimental Study of Mass Transfer in the Artificial Kidney,” Trans. ASME, 125, 472 (2003). [35]J. M. Zheng, Z. K. Xu, J. M. Li, S. Y. Wang and Y. Y. Xu, “Influence of Random Arrangement of Hollow Fiber Membranes on Shell Side Mass Transfer Performance: a Novel Model Prediction,” J. Membr. Sci., 236, 145 (2004). [36]M., Labecki, J. M. Piret and B. D., Bowen, “Two-Dimensional Analysis of Fluid Flow in Hollow-Fiber Modules,” Chem. Eng. Sci., 50, 3369 (1995). [37]M., Labecki, B. D., Bowen and J. M. Piret, “Two-Dimensional Analysis of Protein Transport in the Extracapillary Space of Hollow-Fiber Bioreactors,” Chem. Eng. Sci., 51, 4197 (1996). [38]J. N. Reddy, and D. K. Gartling, “The Finite Element Method in Heat Transfer and Fluid Dynamics, second ed., CRC Press, Boca Raton, FL, 2001. [39]A. Gabelman, S. T. Hwang and W. B. Krantz, “Dense Gas Extraction Using a Hollow Fiber Membrane Contactor: Experimental Results versus Model Predictions,” J. Membr. Sci., 257, 11 (2005). [40]R. B. Bird, W. E. Stewart and E. N. Lightfoot, “Transport Phenomena”, John Wiley & Sons, Inc. New York, 2002.
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