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Laboratory-scale two-dimensional aquifer physical model studies were conducted to assess the effect of air injection rate and air injection pattern on the removal of disel contaminated soil and groundwater by air/bio-sparging. The experimental results were represented that the optimal conditions in this experiment were as air injection rate of 1,000 ml/min and pulsed air injection pattern(15 min on/off). The results of the TPH reduction, DO consumption and $CO_2$ production indicate the effective biodegradation evidence of diesel. Based on our results, The minimal $O_2$ supply and pulsed air injection pattern could effectively enhance the diesel removal and the pulsing air injection had effect on oxygenation in this system. Thus, the cost of operating air/bio-sparging system will be reduced if optimal air injection rate and pulsed air injection pattern are applied to remediate contaminants.
본 연구에서는 실험실 규모의 2D air/bio-sparging 장치를 이용하여 공기주입량과 공기주입방식이 디젤오염 토양/지하수의 복원에 미치는 영향을 평가하고 최적 조건을 도출하였다. 최적의 공기주입량과 공기주입방식은 1,000 ml/min의 공기주입과 15 min 간격의 간헐적인 공기주입 패턴이 효율적으로 관찰되었고, 실험기간동안 TPH와 DO 감소, $CO_2$ 생성은 오염원인 디젤이 효과적으로 생분해에 의해 제거가 이루어지고 있음 보여주었다. 즉, 최소한의 공기주입으로도 포화층에서의 디젤 분해를 효과적으로 증진시킬 수 있었으며, 간헐적인 공기주입방식은 대수층내에서의 공기 전달을 증진시킬 수 있었다. 또한 Air/bio-sparging공법의 대부분의 운전비가 blower와 off-gas 처리 시스템에 사용되는 전력비라는 것을 감안 할 때, 최적의 공기주입량과 간헐적인 공기주입방식은 운전비 절감의 효과를 가져다 줄 것으로 판단된다.
- 이진용, 이철효, 이강근, 2002, 유류오염 지하수에 대한 공기주입 정화법의 적용성 평가, 지질학회지, 38, 125-130
- Adams, J. and Reddy, K., 2003, Extent of benzene biodegradation in saturated soil column during air sparging, Ground Water Monitoring & Remediation, 23, 85-9410.1111/j.1745-6592.2003.tb00786.x
- Heron, G, Gierke, J.S., Faulkner, B., Mravik, S. Wood, L., and Enfield, C.G., 2002, Pulsed air sparging in aquifers contaminated with dense nonaqueous phase liquids, Ground Water Monitoring & Remediation, 22, 73-8210.1111/j.1745-6592.2002.tb00773.x
- Johnson, P., Das, A., and Bruce, C., 1999, Effect of flow rate changes and pulsing on the treatment of source zones by in situ air sparging, Environmental Science and Technology, 33, 1726-173110.1021/es9807688
- Johnson, P., Johnson, R., Neaville, C., Neaville, C., Hanssen, E., Sterns, S., and Dortch, I., 1997, An assessment of conventional in situ air sparging pilot tests, Ground Water, 35, 765-77410.1111/j.1745-6584.1997.tb00145.x
- Lundegard, P., Chaffee, B., and LaBrecque, D., 2001, Effective air delivery from a horizontal sparging well, Ground Water Monitoring & Remediation, 21, 117-12310.1111/j.1745-6592.2001.tb00307.x
- Reddy, K. and Adams, J., 2001, Effects of soil heterogeneity on airflow patterns and hydrocarbon removal during in situ air sparging, J. of Geotechnical and Geoenvironmental Engineering, 127, 234-24710.1061/(ASCE)1090-0241(2001)127:3(234)
- Reddy, K. and Adams, J., 2000, System effects on benzene removal from saturated soils and ground water using air sparging, J. of Environmental Engineering, 124, 288-299
- Reddy, K., Kosgi, S., and Zhou J., 1995, A review of in-situ air sparging for the remediation of VOC contaminated soils and groundwater, Hazardous Waste and Hazardous Materials, 12, 97-11810.1089/hwm.1995.12.97
- Rutherford, K. and Johnson, P., 2000, Effects of process control changes on aquifer oxygenation rates during in situ air sparging in homogeneous aquifers, Ground Water Monitoring & Remediation, 16, 132-14110.1111/j.1745-6592.1996.tb01180.x
- Publisher :The Korean Society of Soil and Groundwater Environment
- Publisher(Ko) :한국지하수토양환경학회
- Journal Title :Journal of Soil and Groundwater Environment
- Journal Title(Ko) :지하수토양환경
- Volume : 11
- No :4
- Pages :10 ~ 17


Journal of Soil and Groundwater Environment





