Journal of Environmental Health Sciences (한국환경보건학회지)

Korean Society of Environmental Health (한국환경보건학회)
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A Study on Efficiency of SBR Process by Composition of Artificially Wastewater

인공하수 조성 성분에 따른 SBR 처리 공정의 효율에 관한 연구

  • Lee Jang-Hoon (Department of Environmental Engineering, Hoseo University) ;
  • Jang Seung-Cheol (Department of Environmental Engineering, Hoseo University) ;
  • Kwon Hyuk-Ku (Department of Environmental Engineering, Hoseo University) ;
  • Kim Dong Wook (Department of Environmental Engineering, Kongju National University)
  • 이장훈 (호서대학교 환경안전공학부 환경공학과) ;
  • 장승철 (호서대학교 환경안전공학부 환경공학과) ;
  • 권혁구 (호서대학교 환경안전공학부 환경공학과) ;
  • 김동욱 (공주대학교 환경공학과)
  • Published : 2005.04.01
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Abstract

The removals of organic matter, nitrogen and phosphate in wastewater were investigated with Sequencing Batch Reactor (SBR). Glucose and sodium acetate were Used for organic carbon source so as to know nutrient removal efficiency in proportion to MLSS concentration. In the case of glucose, the COD removal rate was $74\%,\;41\%\;and\;66\%$ in MLSS 5000, 3000 and 1000, respectively. On equal terms, the BOD was $57\%,\;21\%\;and\;38\%$, the T-N was $24\%,\;13\%\;and\;44\%$, and the T-P was $12\%,\;21\%\;and\;33\%$. As a result, the removal rate of organic materials showed the finest remove when MLSS was 5000, but the nutrient removal rate appeared as was best when MLSS was 1000. In the case of sodium acetate, the COD removal rate was $83\%,\;81\%\;and\;86\%$ in MLSS 5000, 3000 and 1000, respectively. On equal terms, the BOD was appeared by $76\%,\;82\%\;and\;92\%$, the T-N $57\%,\;42\%\;and\;78\%$, and the T-P $48\%,\;52\%\;and\;38\%$. As a result, organic and T-N removal rates were best when MLSS was 1000. But, the T-P removal rates were best when MLSS was 3000. Glucose was shown fast removal in reaction beginning, but screened by more efficient thing though sodium acetate removes organic matter, nitrogen and phosphate. Form of floc was ideal in all reactors regardless of carbon source and MLSS concentration. And its diameter was about $200\~500{\mu}m$.

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References

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