Browse > Article
http://dx.doi.org/10.5322/JES.2004.13.12.1059

Bio Sparging Column Experiment for Remediation of Diesel Contaminated Groundwater  

Chang Soon-Woong (Dept. of Environmental Engineering, Kyonggi University)
Lee Si-Jin (Dept. of Environmental Engineering, Kyonggi University)
Song Jung-Hoon (Green Engineering and Construction Co. Ltd)
Kwon Soo-Youl (Dept. of Environmental Health, Korea Open National University)
Publication Information
Journal of Environmental Science International / v.13, no.12, 2004 , pp. 1059-1065 More about this Journal
Abstract
Bio sparging experiments were conducted in a laboratory column to investigate the potential removal of diesel contaminated groundwater. The objectives in this study were (a) to determine the extent of diesel degradation in laboratory columns under supplement of nutrient; (b) to determine the effect of variation of air flow in the removal of diesel and (c) to evaluate the potential enhancement of diesel degradation as a function of temperature. Our results showed that the nutrient supplement and higher air flow greatly enhanced diesel degradation. However, the variation of water temperature examined slightly increased degradation rate of diesel fuel.
Keywords
Bio sparging; Diesel; Nutrient; Air flow; Temperature;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Reddy, K. R., S. Kosgi and J. Zhou, 1995, A review of in-situ air sparging for the remediation of VOC-contaminated saturated soils and eroundwater, Hazardous Waste and Hazardous Materials, 12(2), 97-118   DOI   ScienceOn
2 Autry, A. R. and G. M. Ellis, 1993, Bioremediation of petroleum fuel contaminated soils, Federal Environmental Restoration Conference Proceedings, 93-100pp
3 김무훈, 강순기, 정우성, 박덕신, 1999, 유류오염지역의 미생물 분포 및 활성도에 관한 연구, 대한환경공학회지, 21(II), 2041-2047
4 Denis, L., L. Jiyu, M. C. Chapdelaine, J. L. Sansregret and C. Benoit, 1994, In situ air sparging for bioremediation of groundwater and soils, In situ aeration : air sparging, bioventing and related remediation processes, 3(2), 121-126
5 Brock, K. H. and M. T. Madigan, 1991, Biology of microorganisms, Prentice-Hall
6 오영진, 왕성환, 박태주, 2001, 디젤 오염토양의 효과적인 Bioventing, 대한환경공학회 춘계학술연구발표회 논문집(II), 235-236pp
7 Jeffrey, A. A. and R. R. Krishna, 1999, Laboratory study of air sparging of TCE-contaminated saturated soils and groundwater, Groud Water Monitor. Remed., 19, 182-190   DOI
8 Colin, D. J., L. R. John, M. P. Bradley and B. D. Greg, 1998, Volatilization and biodegradation during air sparging of petroleum hydrocarbon-contaminated sand aquifer, Ground-water Remediation and Protection, LAHS Pub., 250, 125-131
9 Elder, C. R. and C. H. Benson, 1999, Air channel formation, size, spacing, and tortuosity during air sparging, Ground Water Monitor. Remed., 19, 171-181   DOI
10 염익태, 이상현, 안규홍, 1999, 오염토양중 디젤성분의 생분해 처리성 평가, 대한환경공학회지, 21(8), 1519-1529
11 Widhg, D. L. and J. F. Manning, 1995, Biodegradation of No. 2 diesel fuel in the vadose zone a soil column study, Environmental Toxicology and Chemistry, 14(11), 1813-1822   DOI   ScienceOn
12 황의영, 남궁완, 박준석, 2000, 환경인자가 토양내 석유탄화수소의 분해에 미치는 영향, 한국토양환경학회지, 5(1), 85-96
13 Johnson, P. C., R. L. Johnson, C. L. Bruce and A. Leeson, 2001, Bioremediation Joumal, 5(4), 251-266   DOI   ScienceOn
14 U.S. Environmental Protection Agency, 1983, Method 418.1:Petroleum Hydrocarbons, Total Recoverable, In: Methods for Chemical Analysis of Water and Wastes, EPA-600/4-79-020
15 Yerushalmi, L., S. Rocheleau, R. Cimpoia, M. Sarrazin, G. Sunahara, A. Peisajovich, G. Leclair and S. R. Guiot, 2003, Enhanced biodegradation of petroleum hydrocarbons in contaminate soil, Bioremediation Joumal, 7(1), 37-51   DOI   ScienceOn
16 Suthersan, S. S., 1996, Remediation engineering design concepts, Lewis Publishers