화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Clean Technology, Vol.25, No.3, 231-237, September, 2019
DOI10.7464/ksct.2019.25.3.231  Export Citation
반송률 변화에 따른 연속 유입식 SBR 공정의 질소 거동
The Nitrogen Behavior in the Continuous Inflow SBR according to Variations of Internal Recycling Rate
김수연, 최용범, 조유나, 한동준1, 권재혁
  • 강원대학교 지구환경시스템공학과, 25913 강원도 삼척시 중앙로 346
  • 1강원도립대학교 소방환경방재과, 25425 강원도 강릉시 주문진읍 연주로270
Su-Yeon Kim, Yong-Bum Choi, You-Na Jo, Dong-Joon Han1, and Jae-Hyouk Kwon
  • Department of Earth & Environmental Engineering, Kangwon National University, 346 Joongang-ro, Samcheok-si, Gangwon-do 25913, Korea
  • 1Department of Fire・Environment Disaster, Gangwon State University, 270 Yeonju-ro, Jumunjin-eup, Gangneung-si, Gangwon-do 25425, Korea
E-mail:
초록
연속 유입식 SBR 공정의 BOD 제거효율은 체류 시간 9 ~ 15 h에서는 92.1 ~ 96.0%에서 체류 시간 6 h에서는 86.9 ~ 90.7%로 감소하였으나, 체류 시간 6 h까지 안정적인 제거효율을 보였다. T-N 제거효율은, 체류시간 12 ~ 15 h에서는 80.1 ~ 87.9%, 체류시간 9 h에서는 71.9 ~ 87.0%, 체류시간 6 h에서는 60.1 ~ 65.7%로 감소되었다. 유기물 및 질소 제거 결과 실험결과 연속 유입식 SBR 반응조의 최적 체류시간은 9 h로 판단된다. 체류시간 9 h에서 반송률(1 ~ 5Q) 변화에 따른 유기물 제거효율 검토 결과, TCODcr의 제거율은 88.4 ~ 96.0%, TBOD 제거효율은 92.1 ~ 98.1%로 조사되어 내부반송률 변화가 유기물 제거에 미치는 영향은 미미한 것으로 조사되었다. 내부반송률 변화에 따른 T-N은 1 ~ 2Q에서 70.3 ~ 80.4%, 3Q는 77.2 ~ 85.6%, 4 ~ 5Q는 61.5 ~ 80.8%로 조사되어, 내부반송률 3Q에서 질소 제거효율이 가장 높게 조사되었다. T-P는 1 ~ 4Q에서 제거효율은 75.0 ~ 84.6%, 5Q에서는 63.3 ~ 72.4%로 감소하였는데, 이러한 이유는 반송률 5Q 이상에서는 미생물에 의한 인(P)의 용출 및 섭취가 원활하게 이루어지지 않기 때문으로 판단된다. 따라서 유기물 및 영양염류 제거를 위한 최적 반송률은 3Q로 조사되었다.
The BOD removal efficiency according to HRT of the continuous inflow SBR process was decreased from 92.1 ~ 96.0% at HRT 9 ~ 15 h to 86.9 ~ 90.7% at HRT 6 h, but a stable removal efficiency was shown up to HRT 6 h. The T-N removal rate was decreased to 80.1 ~ 87.9% at HRT 12 ~ 15 h, to 71.9 ~ 87.0% at HRT 9 h, and to 60.1 ~ 65.7% at HRT 6 h. As a result of the test of removing organic matter and nitrogen, the optimum HRT of the continuous inflow SBR reactor is determined as 9 h. The TCODcr removal efficiency was 88.4 ~ 96.0% and the TBOD removal efficiency was 92.1 ~ 98.1% as a result of examination of organic matter removal efficiency according to a change in the recycling rate (1 ~ 5Q) at HRT 9 h, suggesting that the a change in the recycling rate has a minimal effect on the removal of organic matter. The T-N removal efficiency was 70.3 ~ 80.4% at 1 ~ 2Q, 77.2 ~ 85.6% at 3Q and 61.5 ~ 80.8% at 4 ~ 5Q according to a change in the recycling rate. The TP removal efficiency was reduced to 75.0 ~ 84.6% at 1 ~ 4Q and to 63.3 ~ 72.4% at 5Q. This is presumably because the release and ingestion of phosphorus (P) by microorganisms is not performed smoothly at 5Q or more. Therefore, the optimum recycling rate for removing organic matter and nutrients was found to be 3Q.
Keywords:Denitrification;Internal recycling rate;Nitrification;Nitrogen behavior;SBR Process
  1. Ministry of Environment (Korea), “White Paper of Environment,” 2014.
  2. Roh SH, Kim HY, Moon W, Yun YJ, Kim SI, Appl. Chem., 6(1), 272 (2002)
  3. Irvine RL, Busch AW, J. Water Pollut. Control Fed., 51(2), 235 (1979)
  4. Kim DW, Park YW, Park GT, Trans. Kor. Institute Electri. Eng., 53(4), 221 (2004)
  5. Kim HT, Park CK, Shin SW, J. Kor. Soc. Water Environ., 18(6), 613 (2002)
  6. Kim SS, Seoul National University l, Seoul (2006).
  7. Choi YB, Lee JG, Han DJ, Kwon JH, J. Korea Academia-Ind. Cooperation Soc., 14(2), 970 (2013)
  8. Lim BS, Oa SW, Jo NU, Kor. Soc. Water Wastewater, 15(4), 325 (2001)
  9. Yang BS, Park NB, Lee JK, J. Kor. Soc. Water Environ., 6(1), 1050 (1990)
  10. Lee KY, Bum BS, Cho KM, Kor. Soc. Environ. Eng., 21(10), 1879 (1999)
  11. Sharma B, Ahlert R, Water Res., 11(10), 897 (1977)
  12. Park JY, Pusan National University, Pusan (2004).