Environmental Engineering Research

Korean Society of Environmental Engineers (대한환경공학회)
권호 표지
DOI QR코드

DOI QR Code

RESEARCH PAPERS : ESTIMATION OF ACTIVE NITROSOMONAS AND NITROBACTER CONCENTRATIONS IN ACTIVATED SLUDGE USING NITROGENOUS OXYGEN UPTAKE RATE

  • Published : 2004.06.30
Download PDF
⟨ Previous Next ⟩

Abstract

Keywords

References

  1. Yasuda, T. and Yagishita, M., 'Development of the determination for nitrifying bacteria with antibody method.' in Poster Symp. 69th Wat. Env. Fed. Tech., Dallas, Texas (1996)
  2. Okabe, S. O., Hirata, Y. K., and Watanabe, Y., 'Relationship between population dynamics of nitrifiers in biofilms and reactor perfirmance at various C:N ratios,' Water Res., 30(7), 1563-1572 (1996)
  3. Srinath, E. G., Loehr, R. C., and Prakasam, T. B. S., 'Nitrifying organism concentration and activity,' J. Env. Eng. Div. American Soc. Civ. Engr., 102(EE2), 449-463 (1976)
  4. Hall, E. R. and MurphyK. L., 'Estimation of nitrifying biomass and kinetics in wastewater,' Water Res., 14(4), 297-304 (1980)
  5. Copp, J. B. and Murphy, K. L., 'Estimation of the active nitrifying biomass in activated sludge,' Water Res., 29(8), 1855-1862 (1995)
  6. American Public Health Association, American Water Works Association, and Water Environment Federation, Standard Methods for the Examination of Water and Watewater, 18th ed., Greenberg, A. E., Clesceri, L.S. and Eaton, A. D. (Eds), APHA, Washington, D.C. pp. 1.1-10.37 (1992)
  7. Hanaki, K., Wantawin, C., and Ohgaki, S., 'Effects of the activity of heterotrophs on nitrification in a suspended-growth reactor,' Water Res., 24(3), 289-296 (1990)
  8. Buittron, G. and Capdeville, B., 'Uptake rate and mineralization of hexadecane and naphthalene by a mixed aerobic culture,' Water Res., 27(5), 847-853 (1993)
  9. Chudoba, P., Capdeville, B., and Chudoba, J., 'Explanation of biological meaning of the $S_0/X_0$ ratio in batch cultivation,' Water Sci. Technol., 26(3-4), 743-751 (1992)
  10. Grady, C. P. L. Jr., Smets, B. F., and Barbeau, P. S., 'Variability in kinetic parameter estimates : a review of possible causes and a proposed terminology,' Water Res., 30(3), 742-748 (1996)
  11. U.S. EPA, Nitrogen Control, EPN625/R-93/010, U.S. EPA, Washington, D.C., pp. 87-110 (1993)
  12. Rao, A. V. S. P., Karthikeyan, J., and Iyengar, L., 'Treatment of distillery wastewater (spent wash) - Indian experience,' in Proc. 44h Ind. Waste Corf., Purdue University, West Lafayette, pp. 787-794 (1989)
  13. Stensel, H. D. and Barnard, C. W., 'Principles of biological nutrient removal,' Design and Retrofit of Wastewater Treatment Plants for Biological Nutrient Removal, Randall, C. W., Barnard, J. L., and Stensel, H. D. (Eds.), Technic Publishing Co., Inc., Lancaster, Pennsylvania, pp. 25-84 (1992)
  14. McCarty, P. L., Beck, L., and St. Amant, P., 'Biological denitrification of wastewaters by addition of organic materials,' Proceedings of the 24th Industrial Waste Conference, Purdue University, Lafayette, Indiana, pp. 1271-1285 (1969)
  15. Daigger, G. T., and Nicholson, G. A., 'Performance of full-scale nitrifying wastewater treatment plants incorporating selectors,' J. WPCF, 62(5), 676-683 (1990)

Cited by

  1. Nitrite oxidizing bacteria (NOB) dominating in nitrifying community in full-scale biological nutrient removal wastewater treatment plants vol.7, pp.1, 2017, https://doi.org/10.1186/s13568-017-0328-y
  2. Analysis of Free Ammonia Inhibition of Nitrite Oxidizing Bacteria Using a Dissolved Oxygen Respirometer vol.13, pp.3, 2008, https://doi.org/10.4491/eer.2008.13.3.125