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A Study on the Isolation of the Oil-degradation Microbes and Treatment Efficiency in the Oil Contaminated Soil with Peat Moss

유류오염토양에서 유류분해 미생물의 분리 및 peat moss를 이용한 오염토양 처리에 관한 연구

  • Chun, Mi-Hee (Department of Human Environment, Dong-eui Institute of Technology) ;
  • Son, Hee-Jeong (Terra & Aqua Environmental Co., Ltd.) ;
  • Kim, Chul (Department of Human Environment, Dong-eui Institute of Technology)
  • Published : 2007.10.30

Abstract

Isolation and application of oil-degradation microbes from the oil-contaminated soil and the determination of optimal operation conditions about the peat moss, the addition for the oil-biodegradation. After all experiments, we have acquired three important conclusions: First, we found out the 4 microbes, Pseudomonas fluorescens, Pseudomonas aeruinosa, Kurtia sp., Bacillus ceres, with excellent capability for the oil-degradation; Second, the optimal operating conditions of the peat moss for TPH treatment were pH $7{\sim}8$, temperature $25{\sim}30^{\circ}C$, water content 20%, mixing 2 times/ day, addition volume 2%; Third, in case of the application to the oil-contaminated soil with 4 mixed microbes, the removal efficiency of TPH was increased from 54% to 83% in oil-contaminated soil and from 65% to 85% in oil-contaminated soil with the peat moss.

Keywords

soil;microbes;TPH;peat moss

References

  1. 배은영 : 석유화학단지 주변토양으로 부터 유류분해 미생물의 분리 및 오염 토양에서 적용. 여수대학교 석사학위논문, 2005
  2. Morteza, S. and Azadeh, M. : Some aspects of bioremediation of soil contaminated with petroleum hydrocarbons, AFINIDAD LVI., pp.307-312, 1999
  3. 한승호, 공성호, 강정우 : 유류오염토양/지하수 정화를 위해 개발된 DSB(Deep-Site Biopile)System 현장적용 특성. 한국지하수토양환경학회지, 10(2), 28-34, 2005
  4. John T. Cookson, Jr. : Bioremediation Engineering: Design and application McGraw-Hill, Inc., pp. 1-21, 1995
  5. FM von Fahnestock, GB Wickramanayake, RJ Kratzke, WR Major : Biopile Design, Operation and Maintenance Handbook for treating Hydrocarboncontaminated soil, BATTELLE PRESS, pp. 2-59, 1998
  6. 김지연, 김광현, 김병우, 이광배 : Bacillus sp.PY123균주가 생성하는 수용성 황색색소의 부분 정제 및 그 안정성. 한국환경보건학회지, 14(4), 35-40, 1999
  7. US EPA : Treatment technologies for site cleanup: Annual status report, 11tt addition, EPA-542-R-03-009, 2004
  8. 김광현, 김위종, 이광배 : 식물병원균 Pseudomonas syringae에 대한 생물방제균 Bacillus sp. BT 182-3의 분리 및 특성. 한국한경보건학회지, 13(3), 113-120, 1998
  9. 박용하 외 5인 : 토양오염지역의 관리 및 복원방안 연구 I, KEI/2002/RE-07. 한국환경정 책평가연구원, 2002
  10. 박용하 외 4인 : 토양오염지역의 관리 및 복원방안 연구 II, KEI/2003/RE-13. 한국환경정 책평가연구원, 2003
  11. 박미자, 박경식, 김승재 : PAC 및 PAS 첨가에 따른 상업용 액상 종균제의 총균수 변화에 관한 연구. 한국환경보건학회지, 16(2), 79-90, 2001
  12. Wayne G. Landis, Ming-Ho YU : Introduction to environmental Toxicology, LEWIS PUBLISHES, CRC PRESS, Inc., pp.3-4, 1995

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