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KSBB Journal v.25 no.1, 2010년, pp.73 - 78  

생물학적 유류오염토양 복원제의 현장 적용성 평가
Field Test Assessment of Biological Recovering Agent for treating Oil Contaminated Soil

김수홍    ((주)에스지알테크   ); 송승구    (부산대학교 화학공학과   ); 서정호    (울산과학대학 환경생활화학과  );
  • 초록

    In this study, recovering agent was produced with organic sludge and modified peat moss (MPM) in pilot plant mixer to recover oil contaminated soil, and field test of it was estimated using landfarming method. Oil contaminated soil recovering agent was thought to contain more microorganisms than raw waste sludge and was no problem to come onto the market because there were not any items of specified wastes. According to the results of TPH variation with time, it was observed the initial degradation velocity of oil with produced recovering agent was rapid up to 50% after 4 days, remarkably. Because the microorganisms in the organic sludge discharged from chemical plant already acclimated with oil, therefore, it could be estimated initial degradation velocity of recovering agent might be rapid. It was concluded that the oil contaminated soil recovering agent produced in this study have high marketability because of its two aspects on recycling of wastes and initial rapid degradation capacity.


  • 주제어

    recovering agent .   organic sludge .   modified peat moss .   TPH .   oil contaminated soil.  

  • 참고문헌 (11)

    1. Choi, S. I., G. T. Lee, and J. G. Yang (2009) Introduction to Soil Pollution Management and Recovery. pp. 18-22. Donghwa Tech., Seoul, Korea. 
    2. An, D. M. (2001) Environment. 2nd ed., p. 563. Bomundang, Seoul, Korea. 
    3. Kwak, M. Y (2007) Prospect and present status of soil environmental remediation industry. Korean J. Environ. Eng. 29: 271-274.     
    4. Palitt, M., P. Poketh, E. S. Upatham, and L. Tangban (1998) Biodegradation of crude-oil by soil-microorganisms in the tropic. Biodegradation 9: 83-90. 
    5. Hong, S. C., G. J. Kim, S. W. Lee, S. H. Chae, S. T. Oh, C. H. Lee, and Y. Y. Chang (2008), Application of in-situ thermal desorption coupled with thermophilic hydrocarbon-degradable microbial consortia for the remediation of hydrocarbon-contaminated Soils. Korean J. Waste Man. 25: 484-491. 
    6. Hwang, J. H., W. J. Choi, M. C. Kim, J. H. Jung, S. H. Ha, and K. J. Oh (2008) A study on soil washing for diesel-contaminated soil by using decomposition of $NaOH/H_2O_2$. Korean J. Environ. Eng. 30: 999-1005.     
    7. Kebelitz, N., J. Machackova, G. Imfeld, M. Brennerova, D. H. Pieper, H. J. Heipieper, and H. Junca (2009) Enhancement of the microbial community biomass and diversity during air sparging bioremediation of a soil highly contaminated with kerosene and BTEX. Appl. Microblol. Biotechnol. 82: 565-577. 
    8. D'Annibale, A., V. Leonardi, E. Federici, F. Baldi, F. Zecchini, and M. Petruccioli (2007) Leaching and microbial treatment of a soil contaminated by sulphide ore ashes and aromatic hydrocarbons. Appl. Microbiol. Biotechnol. 74: 1135-1144. 
    9. Wu, Y, Y. Luo, D. Zou, W. Liu, Y Teng, and Z. Li (2008) Bioremediation of polycyclic aromatic hydrocarbons contaminated soil with Monilinia sp.: degradation and microbial community analysis. Biodegradation 19: 247-257. 
    10. Kim, S. H., C. H. Lee, and J. H. Suh (2010) Development of degradation agent for oil contaminated soil using modified peat moss and organic sludge. Korean J. Biotechnol. Bioeng. 25: In press.     
    11. Ministry of Environment (2008) Water Pollution Standard Test 2008-99. 

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