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APHA, AWWA and WEF, “Standard Methods for the Examination of Water and Wastewater,” 20th Edition, (1998).
Asutosh, G., Joseph, R.V., Munish, G., Gregory, D. S. and Makram, T. S., “Methanogenesis and Sulfate Reduction in Chemostats-I. Kinetic Studies and Experiments,”Wat. Res.,28(4), 781 (1994).
Asutosh, G., Joseph, R.V., Gregory, D. S. and Makram, T. S., “Methanogenesis and Sulfate Reduction in Chemostats-II. Model Development and Verification,”Wat. Res.,28(4), 795 (1994).
Budavari, S., O'Neil, M. J., Smith, A. and Heckelman, P. E., “The Merck Index,” 11th ed. Merck & Co., Inc., Rahway, NJ, 939 (1989).
Castillo, A., Llabres, P. and Mata-Alvarez, J., “A Kinetic Study of a Combined Anaerobic-Aerobic System for Treatment of Domestic Sewage,”Wat.Res.Tech.,33 7), 1742 (1999).
Cecilia, O. and Hakan, R., “Transport Fate of Organic Compounds with Water Through Landfills,”Wat. Res.,33(10), 2247 (1999).
CHEMFATE. Syracuse Research Corporation's Environmental Fate Data Bases, Retrieved 8/5/94. Syracuse Research Corporation, Syracuse, NY (1994).
Dobbs, R. A., Wang, L. and Govind, R., “Sorption of Toxic Organic Compounds on Wastewater Solids: Correlation with Fundamental Properties,”Env. Sci. & Tech.,23(9), 1092 (1989). EPA regulation 749-F-94-013 (1994).
Gatze, L., Willem, de Z. and Els, O., “Anaerobic Treatment of Wastes Containing Methanol and Higher Alcohols,”Water Research,15, 171 (1981).
Ghosh, S. and Polhland, F. G., “Kinetic of Substrate Assimilation and Product Formation in Anaerobic Digestion,”J. Wat. Pollut. Control Fed.,46, 748 (1974).
Gruden, C. L., Dow, S. M. and Hernandez, M. T., “Fate and Toxicity of Aircraft Deicing Fluid Additives Through Anaerobic Digestion,”Water Environment Research,73(1), 72(2001).
Gunnarsson, A.H. and Rannow, P.H., “Interrelationships Between Sulfate-reducing and Methane Producing Bacteria in Coastal Sediments with Intense Sulfide Production,”Mar. Biol.,69, 121 (1982).
HSDB. Hazardous Substances Data Bank. MEDLARS Online Information Retrieval System, National Library of Medicine, Retrieved August (1994).
Namkung, E. and Rittmann, B. E., “Estimating Volatile Organic Compound Emissions from Publicly Owned Treatment Works,”Jour. Water Poll. Cont. Fed.,59(7), 670 (1987).
Nishio, N., Roberto, G. S., Kazuhiko, H. and Shiro, N., “High Rate Methane Production in a USAB Reactor Fed with Methanol and Acetate,”Jour. Fermentation and Bioengineering,75(4), 309 (1993).
Novac, J. T. and Carlson, D.A., “The Kinetic of Anaerobic Long Chain Fatty Acid Degradation,”J. Wat. Pollut. Control Fed.,42, 1932 (1970).
Oremland, R. S., Marsh, L.M. and Polcin, S., “Methane Production and Simultaneous Sulphate Reduction in Anoxic Salt Marsh Sediments,”Nature,296, 43 (1982).
Scheunert, I., Vockel, D., Schmitzer, J. and Korte, F., “Biomineralization Rates of 14C-Labeled Organic Chemicals in Aerobic and Anaerobic Suspended Soil,”Chemosphere,16, 1031 (1987).
Schwarz, A., Yahyavi, B, Mosche, M., Burkhardt, C., Jordening, H.-J., Buchholz, L. and Reuss, M., “Mathematical Modeling for Supporting Scale-Up of an Anaerobic Wastewater Treatment in a Fluidized Bed Reactor,”Wat. Sci. Tech., 345–6, 501 (1996).
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