720                            Fundamentals of Water Treatment Unit Processes: Physical, Chemical, and Biological


            McKinney, R. E. and Symons, J. E., Discussion (pp. 440–446)  Rohlich, G. A., Methods for removal of phosphorous and nitrogen
                ofMcWhorter, T. R. andHeukelekian, H.,Growth andendogen-  from sewage plant effluents, in: Eckenfelder, W. W. (Ed.),
                ous phases in the oxidation of glucose (pp. 419–449  Advances in Water Pollution Research (Proceedings of the Inter-
                including discussion), in Eckenfelder, W. W. Jr. (Ed.), Advances  national Conference held in London, September, 1962), Volume
                in Water Pollution Research (Proceedings of the International  2, Pergamon Press, The Macmillan Company, New York, 1964.
                Conference held in London, September 1962), Volume 2,  Sawyer, C. N. and McCarty, P. L., Chemistry for Sanitary Engineers,
                Pergamon Press, The Macmillan Company, New York, 1964.  McGraw-Hill, New York, 1967.
            Metcalf, L. and Eddy, H. P., American Sewerage Practice, Volume  Schulze, K. L., The activated sludge process as a continuous flow
                III, Disposal of Sewage, McGraw-Hill, New York, 1916.  culture-Part I, Theory, Water and Sewage Works, 111(12):
            Metcalf & Eddy, Inc., Wastewater Engineering—Treatment, Dis-  526–538, December 1964; Part II, Application, Water and
                posal, and Reuse, 3rd edn., McGraw-Hill, Inc., New York,  Sewage Works, 112(1):11–17, January 1965.
                1991.                                          Servizi, J. A. and Bogan, R. H., Free energy as a parameter in
            Monod, J., Annales de lInstitut Pasteur, 68:444, 1942 (citation given  biological treatment, Journal of Sanitary Engineering Div-
                by Monod, 1949).                                    ision, American Society of Chemical Engineers, 89(SA3):
            Monod, J., The growth of bacterial cultures, Annual Review of  17–40, June 1963.
                Microbiology, Volume 3, Annual Reviews, Inc., Palo Alto,  Servizi, J. A. and Bogan, R. H., Thermodynamic aspects of bio-
                CA, 1949.                                           logical oxidation and synthesis, Journal of Water Pollution
            Morgan, P. F. and Bewtra, J. K., Air diffuser efficiencies, Journal of  Control Federation, 36(5):607–618, May 1964.
                the Water Pollution Control Federation, 32(10):1047, 1960.  Sherrard, J. H., Kinetics and stoichiometry of completely mixed
            Nemerow, N. L. and Agardy, F. J., Strategies of Industrial and  activated sludge, Journal of the Water Pollution Control Fed-
                Hazardous Waste Management, Van Nostrand Reinhold,  eration, 49(9):1968–1975, September 1977.
                New York, 1998.                                Silberberg, M., Chemistry—The Molecular Nature of Matter and
            Orhon, D. and Artan, N., Modeling of Activated Sludge Systems,  Change, Mosby-Year Book, Inc., St. Louis, MO, 1996.
                Technomic Publishing Co., Lancaster, PA, 1994.  Stack, V. T. and Conway, R. A., Design data for completely mixed
            Pagilla, K. R., Jenkins, D., and Kido, W. H., Nocardia control in  activated sludge treatment, Sewage and Industrial Wastes,
                activated sludge by classifying selectors, Water Environment  31(10):1180–1190, 1959.
                Research, 68(2):235–239, March=April 1996.     Stewart, M. J., Pearson, E. A., and Hiramoto, E. M., Reaction kinetics
            Parker, D. S. Process Design Manual for Nitrogen Control, Tech-  of continuous flow anaerobic fermentation processes, Pro-
                nology Transfer, U.S. Environmental Protection Agency,  ceedings of the 14th Industrial Waste Conference, pp. 309–
                Cincinnati, OH, 1975.                               339, Purdue University, Lafayette, IN, May 5–7, 1959.
            Pearson, E. A. and Haas, P., Unpublished field investigations, Sani-  Stryer, L., Biochemistry, W. H. Freeman, New York, 1981.
                tary Engineering Research Laboratory, University of Califor-  Stumm, W., Discussion of paper, Rohlich, G. A., Methods for
                nia, Berkeley, CA, 1965. Cited in Pearson (1968).   removal of phosphorous and nitrogen from sewage plant efflu-
            Prescott, L. M., Harley, J. P., and Klein, D. A., Microbiology,  ents, in: Eckenfelder, W. W. (Ed.), Advances in Water Pollu-
                2nd edn., Wm. C. Brown Publishers, Dubuque, IA, 1993.  tion Research (Proceedings of the International Conference
            Porges, N., Jasewicz, L., and Hoover, S. R., Principles of biological  held in London, September, 1962), Volume 2, Pergamon
                oxidation, in: McCabe, J. and Eckenfelder, W. W. Jr. (Eds.),  Press, Macmillan Company, New York, 1964.
                Biological Treatment of Sewage and Industrial Wastes, Vol-  Suidan, M. T., Najm, I. N., Pfeffer, J. T., and Wang, Y. T., Anaerobic
                ume 1, Aerobic Oxidation, Chapter 1–3, Reinhold Publishing,  biodegradation of phenol: Inhibition kinetics and system sta-
                New York, 1956.                                     bility, Journal of the Environmental Engineering Division,
            Prescott, L. M., Harley, J. P., and Klein, D. A., Microbiology, 6th  ASCE, 114(6):1359–1376, December 1988.
                edn., McGraw-Hill, Dubuque, IA, 2005.          Tchobanoglous, G. and Burton, F. L. (Metalf & Eddy, Inc.), Waste-
            Rawn, J. D., Proteins, Energy, and Metabolism, Neil Patterson  water Engineering-Treatment, Disposal, Reuse, 3rd edn.,
                Publishers, Burlington, NC, 1989.                   McGraw-Hill, New York, 1991.
            Richard, M., Hao, O., and Jenkins, D., Growth kinetics of Sphaer-  URS Research Company, Procedures for Evaluating Performance of
                otilus species and their significance in activated sludge bulk-  Wastewater Treatment Plants—A Manual, Under Contract No.
                ing, Journal of the Water Pollution Control Federation, 57(1):  68-01-0107, Prepared for Office of Water Programs, Environ-
                68–81, January 1985a.                               mental Protection Agency, Washington, D.C., 1973.
            Richard, M. G., Shimizu, G. P., and Jenkins, D., The growth and  Vagliasindi, F. and Hendricks, D. W., Wave front behavior in
                physiology of the filamentous organism Type 021N and its  adsorption reactors, Journal of the Environmental Engineering
                significance to activated sludge bulking, Journal of the Water  Division, ASCE, 118(4):530–550, July/August 1992.
                Pollution Control Federation, 57(12): 1152–1162, 1985b.  Washington, Hetting, and Sathyanarayana, discussion of paper
            Rickert, D. A. and Hunter, J. V., Colloidal matter in wastewaters and  by McKinney, R.E. Mathematics of complete mixing acti-
                secondary effluents, Journal of the Water Pollution Control  vated sludge (ASCE Paper 3516), Transactions of ASCE,
                Federation, 44(1):134–139, January 1972.            128(Part III):497–534, 1963.
            Rittman, B. E., Aerobic biological treatment, Environmental Science  Water Pollution Control Federation Manual of Practice No. 16,
                and Technology, 21(2):128–136, 1987.                Anaerobic Sludge Digestion, 1968.
            Rittman, B. E. and McCarty, P. L., Environmental Biotechnology:  Yoshinaga, J. K., Hendricks, D. W., and Klein, D. A., Microbial
                Principles and Applications, McGraw-Hill, New York, 2001.  growth kinetics for natural and synthetic organic compounds,
            Rittman, B. E., Smets, B. F., and Stahl, D. A., The role of genes in  Environmental Engineering Report, Department of Civil
                biological processes-Part I, Environmental Science and Tech-  Engineering, Colorado State University, Fort Collins, CO,
                nology, 24(1):23–29, 1990.                          April, 1995.