References

1. Antoniou, P., J. Hamilton, B. Koopman, R. Jain, B. Holloway, G. Lyberatos. and S. A. Svoronos, Effect of temperature and pH on the effective maximum specific growth rate of nitrifying bacteria. Water Research 24:97- 101, 1990.

2. Berthouex, P. M. and D. R. Gan, Discussion of 'A comparison of estimates of kinetic-constants for a suspended growth treatment system from various linear transformations.' Research Journal, Water Pollution Control Federation 63:820-823, 1991.

3. Brown, S. C., C. P. L. Grady Jr., and H. H. Tabak, Biodégradation kinetics of substituted phenolics: demonstration of a protocol based on electrolytic respirometry. Water Research 24:853-861, 1990.

4. Cech, J. S., J. Chudoba and P. Grau, Determination of kinetic constants of activated sludge microorganisms. Water Science and Technology 17(2/3):259-272, 1985.

5. Chudoba, J., J. S. Cech, J. Farkac and P. Grau, Control of activated sludge filamentous bulking: experimental verification of a kinetic selection theory. Water Research 19: 191-196, 1985.

6. Dang, J. S., D. M. Harvey, A. Jobbâgy, and C. P. L. Grady Jr., Evaluation of biodégradation kinetics with respirometric data. Research Journal, Water Pollution Control Federation 61:1711-1721, 1989.

7. Dowd, J. E. and D. S. Riggs, A comparison of estimates of Michaelis-Menten kinetic-constants from various linear transformations. Journal of Biological Chemistry 240: 863-869, 1965.

8. Drtil, M., P. Nemeth and I. Bodik, Kinetic constants of nitrification. Water Research 27: 35-39, 1993.

9. Ekama, G. A., P. L. Dold and G. v. R. Marais, Procedures for determining intluent COD fractions and the maximum specific growth rate of heterotrophs in activated sludge systems. Water Science and Technology 18(6):91 -114, 1986.

10. Ellis, T. G.. D. S. Barbeau, B. F. Smets, and C. P. L. Grady Jr., Respirometric technique lor determination of extant kinetic parameters describing biodégradation. Water Environment Research 68:917-926, 1996.

11. Ellis, T. G., B. F. Smets, and C. P. L. Grady Jr., Influence of simultaneous multiple substrale biodégradation on the kinetic parameters for individual substrates. Proceedings of the Water Environment Federation 68th Annual Conference and Exposition, Miami Reach, Florida, October 21-25, 1995, Vol. 1, Wastewater Treatment Research and Municipal Wastewater Treatment, pp. 167-168, 1995.

12. Germirli, F, D. Orhon, and N. Artan, Assessment of initial inert soluble COD in industrial wastewaters. Water Science and Technology 23(4/6): 1077-1086 , 1991.

13. Germirli, F., D. Orhon, N. Artan, E. Ubay, and E. Giirgiin, Effect of two-stage treatment on the biological treatability of strong industrial wastes. Water Science and Technology 28(2): 145-154, 1993.

14. Givens, S. W., E. V. Brown, S. R. Gelman, C. P. L. Grady Jr., and D. A. Skedsvold. Biological process design and pilot testing for a carbon oxidation, nitrification and de-nitrification system. Environmental Progress 10:133-146, 1991.

15. Grady, C. P. L. Jr., G. Aichinger, S. F. Cooper, and M. Naziruddin, Biodégradation kinetics for selected toxic/hazardous organic compounds. Hazardous Waste Treatment: Biosystems for Pollution Control, Proceedings of the 1989 A&WMA/EPA International Symposium, Air & Waste Management Association, Pittsburgh, PA, pp. 141- 153, 1989.

16. Grady, C. P. L. Jr., B. S. Magbanua, R. L. Buddin, A. G. Rodieck, R. W. Sanders 11, W. W. Sowers, and J. C". Stanfill, Relative efficacy of extant and intrinsic kinetic parameter estimates for predicting Ihe removal of synthetic organic chemicals by activated sludge. Proceedings of the Water Environment Federation 69th Annual Conference and Exposition. Dallas, Texas, October 5-9, 1996, Vol. 1, Wastewater Treatment Research and Municipal Wastewater Treatment, pp. 103-114, 1996.

17. Grady, C. P. L. Jr., B. F. Smets, and D. S. Barbeau, Variability in kinetic parameter estimates: a review of possible causes and a proposed terminology. Water Research 30: 742 - 748, 1996.

18. Hall, I. R., Some studies on nitrification in the activated sludge process. Water Pollution Control 73:538-547, 1974.

19. Henze, M., C. P. L. Grady Jr., W. Gujer, G. v. R. Marais, and T. Matsuo. Activated sludge model No. 1. IAWPRC Scientific and Technical Reports, No. 1, 1987.

20. Henze, M., C. P. L. Grady, Jr., W. Gujer, G. v. R. Marais, and T. Matsuo. A general model for single-sludge wastewater treatment systems. Water Research 21:505-515, 1987.

21. Kappeler, J. and W. Gujer, Estimation of kinetic parameters of heterotrophic biomass under aerobic conditions and characterization of wastewater for activated sludge modelling. Water Science and Technology 25(6): 125 - 139, 1992.

22. Lamb, J. C. Ill, W. C. Westgarth, J. L. Rogers, and A. P. Vernimmen, A technique for evaluating the biological treatability of industrial wastes. Journal. Water Pollution Control Federation 36:1263- 1284, 1964.

23. Lesouef, A., M. Payraudeau, F. Rogalla, and B. Kleiber, Optimizing nitrogen removal configurations by on-site calibration of the IAWPRC activated sludge model. Water Science and Technology 25(6): 105-123, 1992.

24. Marnais, D., D. Jenkins, and P. Pitt, A rapid physical-chemical method for determination of readily biodegradable COD in municipal wastewater. Water Research 27 195-197, 1993.

25. Marais, G. v. R. and G. A. Ekama, The activated sludge process. Part I. Steady state behaviour. Water SA 2:164-200, 1976.

26. Metcalf «Se Eddy, Inc., Wastewater Engineering: Treatment, Disposal, Reuse, 3rd Ed., McGraw-Hill, New York, 1991.

27. Moriarty, D. J. W., Measurement of bacterial growth rates in aquatic systems from rates of nucleic acid synthesis. Advances in Microbial Ecology• 9:245-292, 1986.

28. Ong, S. L., A comparison of estimates of kinetic constants for a suspended growth treatment system from various linear transformations. Research Journal, Water Pollution Control Federation 62:894-900, 1990.

29. Orhon, D. and N. Artan, Modeling of Activated Sludge Systems, Technomic Publishing, Lancaster, PA, 1994.

30. Parkin, G. F. and P. L. McCarty, Sources of soluble organic nitrogen activated sludge effluents. Journal, Water Pollution Control Federation 53:89-98, 1981.

31. Patterson, J. W., P. L. Brezonik, and H. D. Putnam, Sludge activity parameters and their application to toxicity measurements and activated sludge. Proceedings of the 24th Industrial Wasti- Conference, 1969, Purdue University, Engineering Extension Series No. 135, Purdue University, West Lafayette, Indiana, pp. 127-154, 1969.

32. Postgate, J. R., Viable counts and viability. Methods in Microbiology 1:611 -628, 1969.

33. Robinson, J. A. and W. G. Characklis, Simultaneous evaluation of Vm:l„ K„„ and the rate of endogenous substrate production (R) from substrate depletion data. Microbial Ecology 10:165-178, 1984.

34. SAS Institute, Inc., SAS/STAT User's Guide, Release 6.03 Edition, SAS Institute, Inc., Cary, North Carolina, 1988.

35. Servais, P., G. Billen, J. Martinez, and J. Vives-Rego, Estimating bacterial mortality by the disappearance of 'H-labeled intracellular DNA. FEMS Microbiology Ecology 62: 119-126, 1989.

36. Sollfrank, U. and W. Gujer, Characterization of domestic wastewater for mathematical modelling of the activated sludge process. Water Science and Technology 23(4/6): 1057-1066, 1991.

37. Water Environment Federation, Design of Municipal Wastewater Treatment Plants, Manual of Practice No. 8, Alexandria, Virginia, 1992.

38. Weddle, C. L. and D. Jenkins, The viability and activity of activated sludge. Water Research 5:621- 640, 1971.

39. Wentzel, M. C., A. Mbewe, and G. A. Ekama, Batch test for measurement of readily biodegradable COD and active organism concentrations in municipal waste waters. Water SA 21:117-124, 1995.

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