Chapter 3
Fundamentals of Membrane Processes
Publication: Membrane Technology and Environmental Applications
Get full access to this article
View all available purchase options and get full access to this chapter.
3.7 References
Bellhouse, B.J., Costigan, G., Abhinava, K., and Merry, A. (2001). “The performance of helical screw-thread inserts in tubular membranes.” Sep. Purif. Technol., 22–23, 89–113.
Bhattacharyya, D., and Cheng, C. (1986). “Separation of metal chelates by charged composite membranes.” In Recent Developments in Separation Science, Li, N.N. (ed), vol. 9, p. 907, CRC Press, Boca Raaton, FL, USA.
Cao, Z., Wiley, D.E., and Fane, A.G. (2001). “CFD simulation of net-type turbulence promoters in narrow channel.” J. Membr. Sci., 185, 157–176.
Capannelli, G., Vigo, F., and Munari, S. (1983). “Ultrafiltration membranes: Characterization methods.” J. Membr. Sci., 15, 289–313.
Charcosset, C., and Bernengo, J.-C. (2000). “Characterization of microporous membranes using confocal scanning la ser microscopy in fluorescence mode.” Eur. Phys. J. Applied Physics, 12, 195–199.
Cheryan, M., (1998). Ultrafiltration and Mi crofiltration Handbook. Technomic Publishing Company Inc., Lancaster, PA, USA.
da Costa, A.R., Fane, A.G., Fell, C.J.D., and Franken, A.C.M. (1991). “Optimal channel spacer design for ultra-filtration.” J. Membr. Sci., 62, 275–291.
da Costa, A.R., Fane, A.G., and Wiley, D.E. (1994). “Spacer characterization and pressure drop modelling in spacer-filled channels for ultra-filtration.” J. Membr. Sci., 87, 79–98.
Das, D.B., Nassehi, V., and Wakeman, R.J. (2002). “A finite volume model for the hydrodynamics of combined free and porous flow in sub-surface regions.” Adv. Environ. Res., 7, 35–58.
Dresner, L. (1972). “Some remarks on the integration of the extended Nernst-Planck equations in the hyperfiltration of multicomponent systems.” Desalination 10, 27–46.
Fujita, H. (1968). “Organic Vapors above the Glass Transition Temperatures.” In Diffusion in Polymers, Crak, J., and Park, G.S. (eds.), Academic Press, New York, NY, USA.
Geraldes, V.M., Semiao, V., and de Pinho, M. N. (2002). “The effect on mass transfer of momentum and concentration boundary layers at the entrance region of a slit with a nanofiltration membrane wall.” Chem. Eng. Sci., 57 735–748.
Ghidossi, R., Veyret, D., and Moulin, P. (2006). “Computational fluid dynamics applied to membranes: State of the art and opportunities.” Chemical Engineering and Processing, 45, 437–454.
Gupta, V.K., Hwanga, S., Krantz, W.B., and Greenberg, A.R. (2007). “Characterization of nanofiltration and reverse osmosis membrane performance for aqueous salt solutions using irreversible thermodynamics.” Desalination, 208, 1–18.
Ho, W.S.W., and Sirkar, K.K. (1992). Membrane Handbook, Chapman and Hall, New York, NY, USA.
Hwang, S., and Kammermeyer, K. (1975). Membranes in Separations, John Wiley, New York, NY, USA.
Jordon, S.M., and Koros, W.J. (1990). “Permeability of pure and mixed gases in silicone rubber at elevated pressures.” J. Polymer Science, Polymer Physics Edition, 28, 795–809.
Karode, S.K., and Kumar, A. (2001). “Flow visualization through spacer filled channels by computational fluid dynamics. I. Pressure drop and shear rate calculations for flat sheet geometry.” J. Membr. Sci., 193, 69–84.
Kedem, O., and Katchalski, A., (1958). “Thermodynamic analysis of the permeability of biological membranes to non-electrolytes.” Biochim. Biophys. Acta, 27, 229–246.
Koros, W.J., and Chern, R.T., (1987) Separation of gaseous mixtures using polymer membranes. In Handbook of Separation Process Technology, Ed. Rousseau, R.W., pp. 862–953, John Wiley Sons, New York, NY, USA.
Koros, W.J., and Hellums, M.W. (1989). Transport Properties, Encyclopedia of Polymer Science and Engineering, 2nd ed. (supplement volume), pp 724–802, John Wiley and Sons, New York, NY, USA.
Kurdi, J., and Kumar, A. (2006). “Formation and thermal stability of BMI-based interpenetrating polymers for gas separation membranes.” J. Membrane Sci. 280, 234–244.
Kutowy, O., and Striez, C. (2003). “Intrinsically bacteriostatic membranes and systems for water purification.” US Patent No. 6,652,751.
Lakshminaranaiah, N. (1969). Transport Phenomena in Membranes, Academic Press, New York, NY, USA.
Li, F., Meindersma, W., de Haan, A.B., and Reith, T. (2004). “Experimental validation of CFD mass transfer simulations in flat channels with nonwoven net spacers.” J. Membr. Sci., 232, 19–30.
Lonsdale, H., Merten, U., and Riley, R. (1965). “Transport properties of cellulose acetate osmotic membranes.” J. Appl. Polymer Sci., 9, 1341–1362.
Marriott, J., and Sorensen, E. (2003). “A general approach to modelling membrane modules.” Chem. Eng. Sci., 58, 4975–4990.
Matsuura, T., and Sourirajan, S. (1981) “Reverse Osmosis transport through capillary pores under the influence of surface forces.” Ind. Eng. Chem., Process Des. Dev., 20, 273–282.
Matsuura, T. (1993). Synthetic Membranes and Membrane Processes, CRC Press Inc. Boca Raton, FL, USA.
Mulder, M.H.V., van Voorthuizen, E.M., and Peeters, J.M.M. (2005). Membrane Characterization in Nanofiltration–Principles and Applications, Schafer, A.I., Fane, A.G., and Waite, T.D. (eds.), Elsevier, Oxford, UK, p98.
Musale, D.M., Kumar, A., and Pleizier, G. (1999). “Formation and characterization of poly(acrylonitrile)/chitosan composite ultrafltration membranes.” J. Membr. Sci., 154, 163–173.
Musale, D.M., and Kumar, A. (2000). “Effects of surface crosslinking on sieving characteristics of chitosan:poly(acrylonitrile) composite nanofiltration membranes.” Separ. Purif. Technol., 21, 27–38.
Nobrega, R., de balmann, H., Aimar, P., and Sanchez, V. (1989). “Transfer of dextran through ultrafiltration membranes: a study of rejection data analysed by gel permeation chromatography.” J. Membr. Sci., 45, 17–89.
Pellerin, E., Michelitsch, E., Darcovich K., Lin, S., and Tam, C.M. (1995). “Turbulent transport in membrane modules by CFD simulation in two dimensions.” J. Membr. Sci., 100, 139–153.
Pusch, W. (1986). “Measurement technique s of transport through membranes.” Desalination, 59, 105–198.
Ranade, V.V., and Kumar, A. (2006a). “Fluid dynamics of spacer filled rectangular and curvilinear channels.” Journal of Membrane Science, 271, 1–15.
Ranade, V.V., and Kumar, A. (2006b). “Comparison of flow structures in spacer-filled flat and annular, channels.” Desalination, 191, 236–244.
Rangarajan, R., Majid, M.A., Matsuura, T., and Sourirajan, S. (1984). Permeation of pure gases under pressure through asymmetric porous membranes. Membrane characterization and prediction of performance” Ind. Eng. Chem., Proc. Des. Dev., 23, 79–87.
Robeson, L.M. (2008). “Upper bound revisited.” J. Membr., Sci., 320, 390–400.
Schiwinge, J., Wiley, D.E., and Fletcher, D.F. (2002). “Simulation of the flow around spacer filaments between narrow channel walls. 1. Hydrodynamics.” Ind. Eng. Chem. Res., 41, 2977–2987.
Serra, C.A., and Wiesner, M.R. (2000). “A comparison of rotating and stationary membrane disk filters using computational fluid dynamics.” J. Membr. Sci., 165 19–29.
Sourirajan, S. (1970). Reverse Osmosis, Academic Press, New York, NY, USA.
Stannett, V. (1978). “The transport of gases in synthetic polymeric membranes-an historic perspective.” J Membr. Sci., 3, 97–115.
Stanton, S., Taha, T., and Cui, Z. (2002). “Enhancing hollow fibre ultrafiltration using slug-flow a hydrodynamic study.” Desalination, 146, 69–74.
Stern, S.A., Kulkarni, S.S., and Frisch, H.L. (1983). “Test of a free volume model for gas permeation through polymer membranes. I Pure CO2, CH4,C2H4 and C3H in polyethylene.” J. Polymer Sci., Polymer Physics Edition, 21, 467–481.
Ulbricht, M., and Belfort, G. (1996). “Surface modification of ultrafiltration membranes by low temperature plasma II. Graft polymerization onto polyacrylonitrile and polysulfone.” J. Membr., Sci., 111, 192–215.
Vrentas, J.S., and Duda, J.L. (1986). “Diffusion.” In Encyclopedia of Polymer Science, Kroschwitz, J.I. (ed.), 2nd ed., Vol. 5, pp 36–68, John Wiley and Sons, New York, NY, USA.
Wickramasinghe, S.R., Bower, S.E., Chen, Z., Mukherjee, A., and Husson, S.M. (2009). “Relating the pore size distribution of ultrafiltration membranes to dextran rejection.” J. Membr., Sci., 340, 1–8.
Wiley, D.E, and Fletcher, D.F. (2003). “Techniques for computational fluid dynamics modelling of flow in membrane channels.” J. Membr. Sci., 211, 127–137.
Zhu, Z. (2006). “Permeance should be used to characterize the productivity of a polymeric gas separation membrane.” J. Membr., Sci., 281, 754–756.
Information & Authors
Information
Published In
Copyright
© 2012 American Society of Civil Engineers.
History
Published online: May 31, 2013
ASCE Technical Topics:
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.