Abou-Nemeh, I., Majumdar, S., Saraf, A., Sirkar, K.K., Vane, L.M., Alvarez, F.R., and Hitchens, L. 2001. "Demonstration of pilot-scale pervaporation systems for volatile organic compound removal from a surfactant enhanced aquifer remediation fluid. II. Hollow fiber membrane modules." Environmental Progress, 20: 64-73.

Ahn, J., Daidou, T., Tsuneda, S., and Hirata, A. 2002. "Characterization of denitrifying phosphate-accumulating organisms cultivated under different electron conditions using polymerase chain reaction-denaturing gradient gel electrophoresis assay." Water Research 36: 403-412.

Aiyuk, S., Amoako, J., Raskin, L., van Haandel, A., and Verstraete, W. 2004. "Removal of carbon and nutrients from domestic wastewater using a low investment, integrated treatment concept." Water Research 38: 3031-3042.

Alvarez, F.R., Vane, L.M., and Hitchens, L. 2001. "Demonstration of pilot-scale pervaporation systems for volatile organic compound removal from a surfactant enhanced aquifer remediation fluid. I. Spiral wound membrane modules." Environmental Progress 20: 53-63.

Arun, V, Mino, T., and Matsuo, T. 1987. "Biological mechanisms of acetate uptake mediated by carbohydrate consumption in excess phosphate removal systems." Water Research 22: 565-570.

Bond, P., Hugenholtz, P., Keller, J., and Blackall, L. 1995. "Bacterial community structures of phosphate removing and non-phosphate removing activated sludge from sequencing batch reactor." Applied Environmental Microbiology 61: 1910-1916.

Dutta, B.K., Ji, W., and Sikdar, S.K. 1996. "Pervaporation: Principles and applications." Separation and Purification Methods 25: 131-224.

Fuhs, G.W. and Chen, M. 1975. "Microbiological basis of phosphate removal in the activated sludge process for the treatment of wastewater." Microbiology and Ecology 2: 119-138.

Henze, M., Harremose, P., Jansen, J.L.C., and Arvin, E.2001. Wastewater Treatment: Biological and Chemical Processes, 3rd edition. 430 pp. Berlin: Springer.

Hitchens, L., Vane, L.M., and Alvarez, F.R. 2001. "VOC removal from water and surfactant solutions by pervaporation: A pilot study." Separation and Purification Technology 24: 67-84.

Jiang, J.-S., Vane, L.M., and Sikdar, S.K. 1997. "Recovery of VOCs from surfactant solutions by pervaporation." Journal of Membrane Science 136: 233-247.

Karlsson, H.O.E. and Trägardh, G. 1996. "Applications of pervaporation in food processing." Trends in Food Science & Technology 7: 78-83.

Kuba, T., Loosdrecht, M.C.M. van, Brandse, F., and Heijnen, J.J. 1997. "Occurrence of denitrifying phosphorus removing bacteria in modified UCT-type wastewater treatment plants." Water Res 31: 777-787.

Kuba, T., Loosdrecht, M.C.M. van, and Heijnen, J.J. 1996. "Phosphorus and nitrogen removal with minimal COD requirement by integration of denitrifying dephosphatation and nitrification in a two-sludge system." Water Res 30: 1702-1710.

Liu, S.X. and Peng, M. 2006. "Assessment of semi-empirical mass transfer correlations for pervaporation treatment of wastewater contaminated with chlorinated hydrocarbons." In press, JZUS.

Maurer, M., Gujer, W., Hany, R., and Bachmann, S. 1997. "Intracellular carbon flow in phosphorus accumulating organisms in activated sludge systems." Water Research 31: 907-917.

Mino, T., van Loosdrecht, M.C.M., Heijnen, J.J. 1998. "Microbiology and biochemistry of the enhanced biological phosphate removal process." Water Research 32: 3193-3207.

Mulkerrins, D., Dobson, A.D.W., and Colleran, E. 2004. Parameters affecting biological phosphate removal from wastewaters. Environment International 30: 249-259.

Peng, M. and Liu, S.X. 2003a. "VOC removal from contaminated groundwater through membrane pervaporation. Part II: 1,1,1-trichloroethane—Surfactant solution system." Journal of Environmental Sciences 15: 821-827.

-. 2003b. "VOC removal from contaminated groundwater through membrane pervaporation. Part I: Water—1,1,1-trichloroethane system." Journal of Environmental Sciences 15: 815-820.

-. 2003c. "Recovery of aroma compound from dilute model blueberry solution by pervaporation." Journal of Food Science 68: 2706-2710.

Peng, M., Vane, L., and Liu, S.X. 2003. "Recent advances in VOC removal from water by pervaporation." Journal of Hazardous Materials B98: 69-90.

Smolders, G.J.F., van Loosdrecht, M.C.M., and Heijnen, J.J. 1994. "A metabolic model for the biological phosphorus removal process." Water Science and Technology 31:461-470.

Vane, L.M., Alvarez, F.R., and Giroux, E.L. 1999. "Reduction of concentration polarization in pervaporation using vibrating membrane module." Journal of Membrane Science 153: 233-241.

Vane, L.M., Alvarez, F.R., and Mullins, B. 2001a. "Removal of methyl t-butyl ether (MTBE) from water by pervaporation: bench-scale and pilot-scale evaluations." Environmental Science & Technology 35: 391-397.

Vane, L.M., Hitchens, L., Alvarez, F.R., and Giroux, E.L. 2001b. "Field demonstration of pervaporation for the separation of volatile organic compounds from a surfactant-based soil remediation fluid." Journal of Hazardous Materials 81: 141-166.

Wentzel, M.C., Lotter, L.H., Loewenthal, R.E., and Marais, G.v.R. 1986. "Metabolic behaviour of Acinetobacter sp. in enhanced biological phosphorus removal—A biochemical model." Water SA 12: 209-224.

Zeng, R.J., Saunders, A.M., Yuan, Z., Blackall, L.L., and Keller, J. 2003. "Identification and comparison of aerobic and denitrifying polyphosphate-accumulating organisms." Biotechnol Bioeng 83: 140-148.

Food and Agricultural Waste Water Utilization and Treatment

Sean X. Liu

Copyright © 2007 by Blackwell Publishing

Was this article helpful?

0 0
Waste Management And Control

Waste Management And Control

Get All The Support And Guidance You Need To Be A Success At Understanding Waste Management. This Book Is One Of The Most Valuable Resources In The World When It Comes To The Truth about Environment, Waste and Landfills.

Get My Free Ebook

Post a comment