Info

Sahm, H., Anaerobic wastewater treatment. Advances in Biochemical Engineering and Biotechnology 29:83- 115, 1984.

Schaezler, D. J., A. W. Busch and C. H. Ward, Kinetic and stoichiometric limitations of phosphate in pure and mixed bacterial cultures. Proceedings of the 24th Industrial Waste Conference, Purdue University Engineering Extension Series No. 135. pp. 507 -533, 1969.

Schulze, K. L. and R. S. Lipe, Relationship between substrate concentration, growth rate, and respiration in Escherichia coli in continuous culture. Archiv fur Mikrobiologie 48:1-20, 1964.

Sharma, B. and R. C. Ahlert, Nitrification and nitrogen removal. Water Research 11: 897-925, 1977.

Sherrard, J. H. Kinetics and stoichiometry of completely mixed activated sludge. Journal, Water Pollution Control Federation 49:1968-1975, 1977.

Siegrist, H. and W. Gujer, Demonstration of mass transfer and pH effects in a nitrifying biofilm. Water Research 21:1481 -1487, 1987.

Simpkin, T. J. and W. C. Boyle, The lack of repression by oxygen of the denitrifying enzymes in activated sludge. Water Research 22:201-206, 1988. Sinclair, C. G. and D. N. Ryder, Models for the continuous culture of microorganism under both oxygen arid carbon limiting conditions. Biotechnology and Bioengineering 17:375-398, 1975.

Speece. R. E., Environmental requirements for anaerobic digestion of biomass. Advances in Solar Energy 2:51-123, 1985.

Srinath, E. G., R. C. Loehr and T. B. S. Prakasam, Nitrifying organism concentration and activity. Journal of the Environmental Engineering Division, ASCE 102:449-463, 1976.

Stankewich, M. J. Jr., Biological nitrification with the high purity oxygenation process. Proceedings of the 27th Industrial Waste Conference, Purdue University Engineering Extension Series No. 141, pp. 1-23, 1972.

Stenstrom, M. K, A dynamic model and computer compatible control strategy for wastewater treatment plants. Ph.D. Dissertation, Clemson University, Clemson, SC, 1975.

Stouthamer, A. H., Biochemistry and genetics of nitrate reductase in bacteria. Advances in Microbial Physiology 14:315-375, 1976.

Sykes, R. M., Identification of the limiting nutrient and specific growth rate Journal, Water Pollution Control Federation 45:888-895, 1973.

Tanaka, H., S. Uzman and 1. J. Dunn, Kinetics of nitrification using a fluidized sand bed reactor with attached growth. Biotechnology and Bioengineering 23:1683-1702, 1981.

121. Tischler, L. F. and W. W. Eckenfelder, Linear substrate removal in the activated sludge process. In Advances in Water Pollution Research, Proceedings of the Fourth International Conference, Prague, S. H. Jenkins, ed., Pergamon Press, Oxford, pp. 361 -374, 1969.

122. Tomlinson, T. G., A. G. Boon and G. N. A. Trotman, Inhibition of nitrification in the activated sludge process of sewage disposal. Journal of Applied Bacteriology 29: 266-291, 1966.

123. van Haandel, A. C., G. A. Ekama and G. v. R. Marais, The activated sludge process. 3. Single sludge denitrification. Water Research 15:1135-1152, 1981.

124. van Uden, N., Kinetics of nutrient-limited growth. Annua! Review of Microbiology 23: 473-486, 1969.

125. Volskay, V. T. Jr. and C. P. L. Grady Jr.. Toxicity of selected RCRA compounds to activated sludge microorganisms. Journal, Water Pollution Control Federation 60: 1850-1856, 1988.

126. Volskay, V. T„ H. H. Tabak and C. P. L. Grady Jr., Effect ol' selected RCRA compounds on activated sludge activity. Research Journal, Water Pollution Control Federation 62: 654-664, 1990.

127. Wood, D. K. and G. Tchobanoglous, Trace elements in biological waste treatment. Journal, Water Pollution Control Federation 47:1933-1945, 1975.

128. Zinder, S. H., Physiological ecology of methanogens. In Methanogenesis: Ecology, Physiology, Biochemistry & Genetics, J. G. Ferry ed.. Chapman & Hall, New York. NY, pp. 128-206, 1993.

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