Journal of Environmental Health Sciences (한국환경보건학회지)

Korean Society of Environmental Health (한국환경보건학회)
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The Effects of Changing of Hydraulic Retention Time and Charging Media on the Removal of Nitrogen and Phosphorus in the Up-flow Anaerobic/Anoxic Reactor and Water-mill for Sewage Treatment

상향류식 혐기성조, 무산소조 및 수차호기조를 이용한 하수처리시 수리학적 체류시간의 변화와 메디아 충진이 질소 및 인 제거에 미치는 영향

  • Published : 2009.02.28
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Abstract

The aims of this study is to examine the effects of the changes in HRT(Hydraulic Retention Time) and media charge in a water-mill, among other operation factors, on the nitrogen and phosphorus removal in order to use up-flow anaerobic reactors, anoxic reactors and water-mill aerobic reactors for sewage treatment. The extension of HRT improved the nitrogen removal efficiency, however the removal pattern was constant regardless of HRT. The removal of phosphorus was constant (80%-90%) regardless of the change in HRT. The removal rate with change in influx load varied such that at the OLR (Organic Load Rate) of 1-3 kg/d, the T-N removal efficiency was 80.7%-88.9% and the T-P removal efficiency was 82.9%-89.3% while at the NLR (Nitrogen Loading Rate) of 0.108-0.156 kg/d the removal efficiencies were 80.7-88.9% (T-N) and 82.9-89.3% (T-P). The analyses of the nitrogen and phosphorous removal characteristics with the C/N and C/P ratio showed that the mean T-N removal rate was 88% at the C/N ratio of 1.2-2.6, and that the mean T-P removal rate was 86% at the C/P ratio of 7.2-14.1. Also, the analysis of nitrogen and phosphorous removal characteristics were analyzed in relation to media charge. The comparison between with and without media charge in the water-mill showed that while the nitrogen removal efficiencies were 86-94% and 85-89% respectively, the difference of phosphorous removal efficiencies were between the two conditions was not significant, thus it suggested that the media charge has less effect on the removal efficiency of phosphorous compared to that of nitrogen.

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References

  1. Oh, D.-M. : A study for water purification quality of stream purification process using GIS, MS Thesis, hanseo university, 2003
  2. Choi, J.-T. and Nam, S.-Y. : Sewage treatment using a modified DNR process. Journal of Korean Society of Environmental Health, 34(6), 446-451, 2008 https://doi.org/10.5668/JEHS.2008.34.6.446
  3. Song, K-B., Bae, J. H. and Cho, K M. : Operational characteristics of UASB and ABR-1. Organic removal efficiency. Journal of Korean Society of Environmental Engineers, 18(2), 159-170, 1996
  4. U.S. EPA: Manual-nitrogen control, EPA/625/R-93/010, Cincinnati, OH, 1993
  5. Kim, B.-G., Seo, I.-S., Hong, S.-T., Kim, D.-G. and Chun, S.-O. : Effect of CIP ratio, SRT, Temperature and nitrate concentration on phosphorus removal in KSDeNTM process. Journal of Korean Society of Water and Wastewater, 17(1), 79-89, 2003
  6. Grady, C. P. L., Jr., Daigger, G. T. and Lim, H. C : Biological wastewater treatment, Marcel Dekker, Inc. 1999
  7. WEF and ASCE : Design of municipal wastewater treatment plants, WEF MOP, No.8, 1998
  8. Madan, L. Arora, Edwin, F. Barth and Margaret B. Limphres : Technology Evaluation of Sequencing Batch Reactors, Jour. Water Pollution Control, Fed. 1985
  9. Katsumi Moriyama, Kazuzki Sato and Y. Harada:Renovation of an Extended Aeration Plant for Simultaneous Biological Removeal of Nitrogen and Phosphorous Using Oxic-Anaerobic-oxic Process, Wat. Sci. Tech 1990
  10. Lee, Y.-S., Jeong, S.-c. and Hong, S.-c. : The study on development of porous media for water treatment. Journal of Korean Society of Environmental Health, 23(4), 16-20, 1997
  11. Lampe, D. G. and Zhang, T. C. : Sulfur limestone autotrophic denitrification processes for treatment of nitrate-contaminated water: batch experiment. Water Research, 33(3), 599-608, 1999 https://doi.org/10.1016/S0043-1354(98)00281-4
  12. Nam, H. U., Lee, J. H., Kim, Y. O. and Park, T. J. : Comparison of COD, nitrogen and International Conference, Vancouver, Canada, Cinference Preprint Book2, 1998