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Anaerobic/Aerobic Biological Reaction Characteristics of the Marine Products Industry Wastewater

수산물가공폐수의 혐기.호기 생물학적 반응특성

  • Choi, Yong-Bum (Department of Environmental Prevention Engineering Kangwon Province College) ;
  • Kim, Gau-You (Department of Food Science and Technology in Animal Kangwon National University) ;
  • Kwon, Jae-Hyouk (Department of Environmental Prevention Engineering Kangwon National University)
  • 최용범 (강원도립대학 환경방재과) ;
  • 김거유 (강원대학교 동물식품응용과학과) ;
  • 권재혁 (강원대학교 환경방재공학)
  • Published : 2008.12.31

Abstract

This study was undertaken to establish the biological reaction characteristics of the marine products industry wastewater which contains high concentrations of organic matter and saline. As the S/I is varied from 0.3 to 1.2, the results were follows : the observed ultimate anaerobic biodegradability varied from 72.0 to 88.0%, the first order reaction rate varied from 0.1735 to $0.3420\;day^{-1}$ and the second order reaction rate varied from 0.0132 to $0.0295\;day^{-1}$. When S/I was 0.9, the first order reaction rate had a maximum value, but the variations of the second order reaction rate were less than 1st-order reaction rate. When the operation time exceeded 2 days the gas production rapidly increased. The source of this rapid increase was due to that the activity of the granular sludge used in this study being faster than that of conventional sludge. Under aerobic condition, the characteristics of organic matter were as follows: the marine industry wastewater used in this study contained about 81% of biodegradable matter, and it was divided into readily biodegradable COD(Ss), slowly biodegradable COD(Xs), soluble COD(Si) and inert suspended COD (Xi). The percentages of each COD were 87.3%, 23.9%, 6.4% and 12.4% respectively.

Keywords

References

  1. Gi, M. B. : Industrial Wastewater Treatment. Donghwa Publish. 1989
  2. Choi, J. T. and Nam, S. Y. : Chlorine inhibition on denitrifying activity of activated sludge microorganism. Korean Journal of Environmental Health, 33(4), 338-343, 2007 https://doi.org/10.5668/JEHS.2007.33.4.338
  3. Olivier Lefebver and Rene Moletta : Treatment of organic pollution in industrial saline wastewater : A literature review. Water Research, 40(20), 3671-3680, 2006
  4. Kincannon, D. F. and Gaudy, A. F. : Response of biological waste treatment systems to changes in salt concentrations. Biotechnology Bioengineers, 10(8), 115-124, 1968
  5. Moon, B. H., Yoon, C. H., Seo, G. T. and Kim, S. S. : Effects of C/N ratio and salt concentration on pollutant removal in SBR. Journal of Korean Society of Environmental Engineers, 24(2), 241-252, 2002
  6. Chow, F. C. and Rechard R. D. : Determination of acetoclastic methanogenic activity in anaerobic systems. 43rd Purdue Industrial Waste Conference Proceedings, pp.353-362, 1989
  7. Chang, Y. B., Cha, G. C. and Kim, S. H. : Kinetic of swine wastewater treatment using anaerobic MBR process. Journal of Korean Society of Environmental Engineers, 26(11), 1211-1218, 2004
  8. Tritt, W. P. and Kang, H. : Biodegradability and decay rates of cow paunch manure under anaerobic conditions. Bioresource Technology, 36, 161-168, 1991 https://doi.org/10.1016/0960-8524(91)90174-I
  9. Kim, B. W. : Development of Livestock Waste Treatment and Resource Recovery System, ph D. thesis, 2001
  10. Liabres-Luengo, P. and Mata-Alvarez, J. : Kinetic study of the anaerobic digestion of straw-pig manure mixtures. Biomass, 12(14), 129-142, 1987 https://doi.org/10.1016/0144-4565(87)90051-5
  11. Kim, W. S., Yun, J. Y. and Lee, Y. H. : Anaerobic digestion characteristics of dewatering wastewater. Journal of Korean Society of Agriculture and Environment, 17(3), 187-196, 1998
  12. Henze, M. : Characteristics of wastewater for modeling of activated sludge process. Water Science and Technology, 25(6), 1-14, 1992
  13. Ekama, G. A. and Painter, H. A. : Procedure for determining influent COD fraction and the maximum specific growth rate in activated sludge process system. Water Science and Technology, 18(1), 91-114, 1986
  14. Kappeler, J. and Gujer, W. : Estimation of kinetic parameter of biomass under aerobic condition and characterization of wastewater for activated sludge modeling. Water Science and Technology, 25(6), 925-938, 1992
  15. Panswad, T. and Anan, C. : Specific oxygen, ammonia, and nitrate uptake rates of a biological nutrient removal process treating elevated salinity wastewater, Bioresource Technolgy, 70, 341-354, 1999
  16. Orhon, D. : Biological treatablility of dairy wastewater. Water Science and Technology, 27(4), 625-633, 1993
  17. Rim, J. M., Kwon, J. H. and Ryu, J. G. : Package of RBC/AFBR process for small-scale piggery wastewater treatment. Korean Journal Sanitation, 11(2), 43-52, 1996

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