Journal of Environmental Health Sciences (한국환경보건학회지)

Korean Society of Environmental Health (한국환경보건학회)
권호 표지

A Study on Nitrification and Denitrification in Biofilter & Sulfur- Limestone Single Stream Process

바이오필터와 황-석회석을 이용한 단일흐름 공정에서의 질산화와 탈질 연구

  • Kim, Tae-Kyu (Department of Environmental Engineering, Chungbuk National University)
  • 김태규 (충북대학교 환경공학과)
  • Published : 2006.10.31
Download PDF
⟨ Previous Next ⟩

Abstract

When denitrification was connected with a single stream process by using biofilter and sulfur-limestone, it was found that such connection enabled highly efficient nitrification without special unit operation of microorganisms or injection of external carbon sources which is being shown in general biological treatment processes. It was observed that in the trickling filter bed, decomposition of organic substances and highly efficient nitrification by both the forced pressure feed trickling and the air fan were simultaneously done. In the denitrification tank where sulfur-limestone was mixed at a certain ratio, limestone was used by autotrophic microorganisms as a source of supply for alkalinity, and nitrate $NO_{3}^{-}$-N was denitrified into nitrogen gas. And in the sulfur-limestone autotrophic denitrification, $NO_{3}^{-}-N\;or\;NO_{2}^{-}-N$ was denitrified as a sulfur compound in reduction state was oxidized into a final output of $SO_{4}^{-2}$. The mean concentration of the discharge water was 8.6 mg/l for T-N and 0.8 mg/l for T-P, respectively, and their mean treatment efficiency was 79.2% and 80.8%, respectively. Implementing highly efficient denitrification without injection of an external organic carbon source or internal return, it is concluded that the proposed process is suitable for a sewerage in a small village with the merits of low power consumption and easy maintenance.

Keywords

References

  1. 환경부 : 2004 하수도사업 추진 관리 계획, 2004a
  2. 류재근 : 오폐수 방류수의 질소 인 배출규제 현황. 첨단환경기술, 서울, 1, 21-27
  3. 환경부 : 국내 하수처리장 운영실태 및 개선방안, 2004a
  4. 유홍덕 : 접촉안정형 영양염류 처리 하이브리드 공정 개발. 박사학위논문, 충북대학교, 26-37, 2005
  5. 최예덕 : 황-이용 탈질시 알칼리도 공급을 위한 두 가지 방안의 평가. 석사학위논문, 인하대학교, 40-44, 2002
  6. Bitton, G. : 'Wastewater Microbiology', John Wiley & Sons, INC., New York, 189-198, 1994
  7. Bergey's manual of systematic Bacteriology, (2nd ed.) Vol. II, G-Proterobacteria pylum. 12
  8. Rowan, A. K. et al. : Composition and diversity of ammonia-oxidising bacterial communities in wastewater treatment reactors of different design treating identical wastewater. FEMS Microbiology Letters, 43, 195-206, 2003 https://doi.org/10.1111/j.1574-6968.1987.tb02122.x
  9. Beijerinck, M. W. : Chermosynthesis at denitrification with sulfur as source of energy. Proceedings Amsterdam Academy of Science, 22, February 28, 898-908, 1920
  10. Driscoll, C. T. and Bisogni, J. J. : The use of sulfur and sulfide in packed bed reactors for autotrophic denitrification. Journal of Washington Press Club Foundation, 569-577, 1978
  11. Ba tchelor, B. a nd L awrence, A. W . : A utotrophic denitrification using elemental sulfur. Journal of Washington Press Club Foundation, 50(8), 1986-2001, 1978
  12. 신항식, 곽종운 : '질소.인 처리기술', 초판, 환경관리연구소, 서울, 21-26, 2002
  13. 김은웅 : 황-이용 탈질시 알칼리도 요구량과 종속영양 탈질의 동시 수행 가능성. 석사학위논문, 인하대학교, 1999
  14. Koenig, A. and Liu, L. H. : Autotrophic denitrification of landfill leachate by elemental sulfur. Wastewater Science Technique, 34(5-6), 469-476, 1996