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Effects of Soil Temperature on Biodegradation Rate of Diesel Compounds from a Field Pilot Test Using Hot Air Injection Process
Park Gi-Ho;Shin Hang-Sik;Park Min-Ho;Hong Seung-Mo;Ko Seok-Oh;
Daewoo Institute of Construction Technology;Department of Civil and Environmental Engineering, Korea Advanced Institute of Science and Technology;Daewoo Institute of Construction Technology;Daewoo Institute of Construction Technology;Department of Civil and Environmental Engineering, Kyunghee University;
고온공기주입 공법 적용시 지중온도가 생분해속도에 미치는 영향
박기호;신항식;박민호;홍승모;고석오;
(주)대우건설 기술연구소;한국과학기술원 건설및환경공학과;(주)대우건설 기술연구소;(주)대우건설 기술연구소;경희대학교 토목건축공학부;

References

1. 염익태, 이상현, 안규홍, 1999, 오염토양 중 디젤성분의 생분해 처리성 평가, 대한환경공학회지, 21(8), 1519-1527
2. Brock, T.D., 1970, Biology of Microorganisms, Prentice Hall, Englewood Cliffs, New Jersey
3. Dupont, R.R. and Lakshmiprasad, T., 1999, Operating mode impacts on bioventing system performance, In: B.C. Alleman, A. Leeson (ed.), In Situ Bioremediation of Petroleum Hydrocarbon and Other Organic Compounds, Bioremediation, 5(3), Battelle Press, Columbus, p. 183-188
4. ENSR., 1995, Soil Vapor Extraction and Bioventing. Engineer Manual, EM 1110.1.4001., US Army Corps of Engineers, Washington, DC
5. Malina, G., Grotenhuis J.T.C., and Rulkens, WH., 1999, The effect of temperature on the bioventing of soil contaminated with toluene and decane and solid phase microextraction-gas chromatography, J. Soil. Contam., 8(4), 455-480
6. Malina, G., Grotenhuis, J.T.C., and Rulkens, WH., 2002, Vapor extractionlbioventing sequential treatment of soil contaminated with volatile and semivolatile hydrocarbon mixtures, Bioremediation Journal, 6(2), 159-176
7. Laleh Yerushalmi and Sylvie Rocheleau, 2003, Enhanced biodegradation of petroleum hydrocarbons in contaminated soil, Bioremediation Journal, 7(1), 37-51
8. Leeson, A. and Hinchee, R.E., 1997, Soil Bioventing Principle and Practice. CRC Lewis, Boca Raton
9. Miller, R.N., Vogel, C.C., and Hinchee, R.E., 1993, A field scale investigation of petroleum hydrocarbon biodegradation in the vadose zone enhanced by soil venting at Tyndall AFB, Florida. In: R.E. Hinchee, R.E Olfenbuttel (ed.), In Situ Bioreclamation: Applications and Investigations for Hydrocarbon and Contaminated Site Remediation, Butterworth-Heineman. p. 283-302
10. Nocentini, M., Pinelli, D., and Fava, E, 2000, Bioremediation of a soil contaminated byhydrocarbon mixture: the residual concentration problem, Chemosphere, 41, 1115-1123
11. Yeung, P.Y, Johnson, R.L., and Xu, J.G., 1997, Biodegradation of petroleum hydrocarbons in soil as affected by heating and forced aeration, J. Environ. Qual., 26, 1511-1516
12. Taylor, C., and Viraraghavan, T., 1999, A bench-scale investigation of land treatment of soil contaminated with diesel fuel, Chemosphere, 39(10), 1583-1593
13. U.S. EPA, 1995, Bioventing Principles and Practice : Bioventing Design, EPA/540/R-95/534a, Washington, DC
14. U.S. EPA, 1995, Bioventing Principles and Practice I: Bioventing Principles, EPA/540/R-95/534a, Washington, DC
15. Underhill, SA., Forbes, P., and Muller, J., 1997, Bioremediation of petroleum contaminated soils at loring AFB, Marine, In Situ and On-Site Bioremediation; Volume 1, Allenman, B. C. and Leeson, A.(ed.), 4th International In Situ and On-Site Bioremediation Symposium, Battelle Press, p. 361-366
16. William, W. M. and Stewart, G. R, 2000, Limiting factors for hydrocarbon biodegradation at low temperature in arctic soils, Soil. Biol. Biochem., 32, 1161-1172
17. www.osc.edulresearch/pcrm/emissions/petrol

This Article

2005; 10(4): 45-53

Published on Aug 1, 2005

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