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


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.


soil;microbes;TPH;peat moss


  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

Cited by

  1. The Removal of Nutrients and Heavy Metals Using Household Rain garden vol.17, pp.1, 2015,
  2. Development of Domestic Rainwater Treatment System and its Application in the Field vol.18, pp.1, 2016,