Evaluation of Apparatus for Membrane Cleaning Tests
Publication: Journal of Environmental Engineering
Volume 136, Issue 10
Abstract
Membrane cleaning is critical to the operation of membrane processes. This paper studies the impact of using four different types of bench-scale membrane systems to assess the effectiveness of different cleaning steps after the filtration of colored river water. The systems are a stirred ultrafiltration (UF) cell, a SEPA cell, a small cross-flow (CF) cell, and a six-CF-cell-in-parallel system. The effect of cleaning frequency was also investigated. The comparison was implemented in terms of flux recovery, solute removal, solute resistance removal, and changes of contact angles. The stirred UF cell was only reliable and comparable in terms of flux and flux recovery results. The six-cell-in-parallel system requires further development due to their much lower flux. For cleaning at 30-min intervals, the cleaning efficiency of membranes was similar for the three CF systems. For cleaning intervals of 2 and 4 h did not statistically affect the flux recovery for the stirred UF cell and SEPA cell. There was some irreversible fouling that could not be restored completely by clean-in-place method even with rigorous chemical treatment.
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Acknowledgments
The writers gratefully acknowledge Vietnam Government (Vietnamese Overseas Scholarship Programs-VOSP), Natural Sciences and Engineering Research Council of Canada (NSERC), and University of Ottawa for their financial support. We would like to thank GE Osmonics for the provision of membranes. We also express gratitude to Britannia Water Purification Plant for the water sampling, Department of Chemical and Biological Engineering, University of Ottawa, for the access to laboratory equipment.NSERC
References
American Public Health Association (APHA), American Water Works Association, and Water Environment Federation. (1995). Standard methods for the examination of water and wastewater, 19th Ed., APHA, Washington, D.C.
Arkhangelsky, E., Kuzmenko, D., and Gitis, V. (2007). “Impact of chemical cleaning on properties and functioning of polyethersulfone membranes.” J. Membr. Sci., 305, 176–184.
Arnal, J. M., Garcia-Fayos, B., Lora, J., Verdú, G., and Sancho, M. (2008). “AQUAPOT: Study of several cleaning solutions to recover permeate flow in a humanitarian drinking water treatment facility based on spiral wound UF membrane. Preliminary test (I).” Desalination, 221, 331–337.
Bodzek, M., and Konieczny, K. (1998). “Comparison of various membrane types and module configurations in the treatment of natural water by means of low-pressure membrane methods.” Sep. Purif. Technol., 14, 69–78.
Chellam, S., Jacangelo, J. G., and Bonacquisti, T. P. (1998). “Modeling and experimental verification of pilot-scale hollow fiber, direct flow microfiltration with periodic backwashing.” Environ. Sci. Technol., 32, 75–81.
Cho, J. H., Choi, I., Kim, S., Sohn, J., and Amy, G. (2002). “Effects of molecular weight cutoff, f/k ratio (a hydrodynamic condition), and hydrophobic interactions on natural organic matter rejection and fouling in membranes.” J. Water Supply: Res. Technol.-AQUA, 51, 109–123.
Choi, H., Zhang, K., Dionysiou, D. D., Oerther, D. B., and Sorial, G. A. (2005). “Effect of permeate flux and tangential flow on membrane fouling for wastewater treatment.” Sep. Purif. Technol., 45, 68–78.
Dang, H. T., Narbaitz, R. M., and Matsuura, T. (2008). “Double-pass casting: A novel technique for developing high performance ultrafiltration membranes.” J. Membr. Sci., 323, 45–52.
Dang, H. T., Narbaitz, R. M., Matsuura, T., and Khulbe, C. K. (2006a). “A comparison of commercial and experimental ultrafiltration membranes via surface property analysis and fouling tests.” Water Qual. Res. J. Canada, 41, 85–94.
Dang, H. T., Narbaitz, R. M., Matsuura, T., and Rana, D. (2006b). “Performance evaluation of commercial and newly-developed UF membranes: Surface analysis and fouling test.” Proc., ’07 ACE Conf., AWWA, Toronto, Ont.
Egeberg, P. K., Christy, A. A., and Eikenes, M. (2002). “The molecular size of natural organic matter (NOM) determined by diffusivimetry and seven other methods.” Water Res., 36, 925–932.
Green, J. H., and Tylla, M. (1998). “A comparison of ultrafiltration on various river waters.” Desalination, 119, 79–83.
Karimi, A. A., Vickers, J. C., and Harasick, R. F. (1999). “Microfiltration goes Hollywood: The Los Angels experience.” J. Am. Water Works Assoc., 91, 90–103.
Kimura, K., Hane, Y., Watanabe, Y., Amy, G., and Ohkuma, N. (2004). “Irreversible membrane fouling during ultrafiltration of surface water.” Water Res., 38, 3431–3441.
Kuzmenko, D., Arkhangelsky, E., Belfer, S., Fregar, V., and Gitis, V. (2005). “Chemical cleaning of UF membranes fouled by BSA.” Desalination, 179, 323–333.
Leenheer, J. S., Croue, J. P., and Krasner, S. W. (2000). “Disinfection by-product formation reactivities of NOM fractions of a low-humic water.” ACS Symp. Ser., 76, 173–187.
Liang, H., Gong, W., Chen, J., and Li, G. (2008). “Cleaning of fouled ultrafiltration (UF) membrane by algae during reservoir water treatment.” Desalination, 220, 267–272.
Liikanen, R., Yli-Kuivila, J., and Laukkanen, R. (2002). “Efficiency of various chemical cleanings for nanofiltration membrane fouled by conventionally-treated surface water.” J. Membr. Sci., 195, 265–276.
Maartens, A., Swart, P., and Jacobs, E. P. (1998). “Humic membrane foulants in natural brown water: Characterization and removal.” Desalination, 115, 215–227.
Mallevialle, J., Anselme, C., and Marsigny, O. (1989). “Effects of humic substances on membrane processes.” Adv. Chem., 219, 749–767.
Mosqueda-Jimenez, D. B., Narbaitz, R. M., and Matsuura, T. (2004a). “Manufacturing conditions of surface-modified membranes: Effects on ultrafiltration performance.” Sep. Purif. Technol., 37, 51–67.
Mosqueda-Jimenez, D. B., Narbaitz, R. M., and Matsuura, T. (2004b). “Membrane fouling test: Apparatus evaluation.” J. Environ. Eng., 130(1), 90–99.
Muñoz-Aguado, M. J., Wiley, D. E., and Fane, A. G. (1996). “Enzymatic and detergent cleaning of a polysulfone ultrafiltration membrane fouled with BSA and whey.” J. Membr. Sci., 117, 175–187.
Nakatsuka, S., Nakate, I., and Miyano, T. (1996). “Drinking water treatment by using ultrafiltration hollow fiber membranes.” Desalination, 106, 55–61.
Nguyen, H. A., Narbaitz, R. M., and Matsuura, T. (2007). “Impacts of hydrophillic membrane additives on the ultrafiltration of river water.” J. Environ. Eng., 133(5), 515–528.
Pontié, M., Durand-Bourlier, L., Lemordant, D., and Lainé, J. M. (1998). “Control fouling and cleaning procedures of UF membranes by a streaming potential method.” Sep. Purif. Technol., 14, 1–11.
Rana, D., Matsuura, T., Narbaitz, R. M., and Feng, C. (2005). “Development and characterization of novel hydrophilic surface modifying macromolecule for polymeric membranes.” J. Membr. Sci., 249, 103–112.
Shon, H. K., Smith, P. J., Vigneswaran, S., and Ngo, H. H. (2007). “Effect of a hydrodynamic cleaning of a cross-flow membrane system with a novel automated approach.” Desalination, 202, 351–360.
Sourirajan, S., and Matsuura, T. (1985). Reverse osmosis/ultrafiltration process principles, National Research Council of Canada, Ottawa, Ont.
Tran-Ha, M. H., and Wiley, D. E. (1998). “The relationship between membrane cleaning efficiency and water quality.” J. Membr. Sci., 145, 99–110.
Weber, P., and Knauf, R. (1998). “Ultrafiltration of surface water with (R)MOLPURE FW50 hollow fibre module.” Desalination, 119, 335–339.
Zhang, J., Padmasiri, S. I., Fitch, M., Norddahl, B., Raskin, L., and Morgenroth, E. (2007). “Influence of cleaning frequency and membrane history on fouling in an anaerobic membrane bioreactor.” Desalination, 207, 153–166.
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© 2010 ASCE.
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Received: Jan 30, 2009
Accepted: Apr 9, 2010
Published online: Sep 15, 2010
Published in print: Oct 2010
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