Journal of The Korean Society of Agricultural Engineers (한국농공학회논문집)

The Korean Society of Agricultural Engineers (한국농공학회)
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Development of In-Situ Soil Gas Monitoring Well for Managing the Bioventing Performance

생물학적 통풍법 공정관리를 위한 원위치 토양가스 관측정 개발

  • Yu, Chan (Dept. of Agricultural. Eng., Gyeongsang Natl' Univ.)
  • Published : 2007.01.31
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Abstract

Bioventing is commonly used for petroleum hydrocarbon (PHC) spills. This process provides better subsurface oxygenation, thus stimulating degradation by indigenous microorganisms. Therefore soil vapor monitoring points (VMPs) are extremely important in determining the potential effectiveness of bioventing and in long-term monitoring of bioventing progress. In this study in-situ soil gas monitoring well (GMW) was developed and presented the pilot test results which recover the contaminated site by bioventing method. The result of application was successful and it was expected that GMW developed could be applied to the evaluation procedure of bioventing effectiveness and long-term remediation potential.

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References

  1. AFCEE, 2000, Source reduction effectiveness at fuel contaminated sites, Technical summary report
  2. AFCEE, 1996a, Addendum one to test plan and technical protocol for a field treatbility test for bioventing using soil gas surveys to determine bioventing feasibility and natural attenuation potential
  3. AFCEE, 1996b, Bioventing performance and cost results from multiple air force test sites
  4. Calabrese, E., and P. Kostecki, 1992, Hydrocarbon Contaminated Soils and Groundwater-Vol. 2, Lewis Publishers, Michigan
  5. Diele, F., F. Notarnicola, & I. Sgura, 2002, Uniform air velocity field for a bioventing system design: Some numerical results, Intl' journal of engineering science, 40: 1199-1210 https://doi.org/10.1016/S0020-7225(02)00015-0
  6. Hinchee, R., G. Douglas and S. Ong, 1995, Continous Bioventing Monitoring Using a New Sensor Technology, IN Monitoring and Verification of Bioremediation, Battelle Press, Columbus, Ohio, USA
  7. Husemann, M. & M. J. Truex, 1996, The role of oxygen diffusion in passive bioremediation of petroleum contanminated soils, J. of hazardous materials, 51: 93-113 https://doi.org/10.1016/S0304-3894(96)01834-1
  8. Glascoe, L. G., S. J. Wright & L. M. Abriola, 1999, Modeling influence of heat/moisture exchange during bioventing, J. of environmental engineering, 125(12): 1093-1102 https://doi.org/10.1061/(ASCE)0733-9372(1999)125:12(1093)
  9. Malina, G., J. T. C. Grotenhuis, & W. H. Rulkens, 2002, Vapor extraction/Bioventing sequential treatment of soil contaminated with volatile and semivolitile hydrocarbon mixtures, Biremediation J., 6(2): 159-176 https://doi.org/10.1080/10588330208951211
  10. McClure, P. D. & B. E. Sleep, 1996, Simulation of bioventing for soil and groundwater remediation, J. of environmental engineering, 122(11): 1003-1012 https://doi.org/10.1061/(ASCE)0733-9372(1996)122:11(1003)
  11. North atlantic treaty organization, 2000, Evaluation of demonstrated and emerging technologies for the treatment of contaminated land and groundwater (Phase III), NATO/ CCMS Pilot study annual report, Number 244
  12. Northwest Soil Research, 1979, Oil Spill Cleanup and Site Reclamation-Edition II, Edmonton, Alberta
  13. Osterreicher-cunha, P., E. D. A. Vargas Jr., J. R. D. Guimaraes, T. M. P. de Campos, C. M. F. Nunes, A. Costa, F. D. S. Antunes, M. I. P. da Silva & D. M. Mano, 2004, Evaluation of bioventing on a gasoline-ethanol contaminated undisturbed residual soil, J. of hazardous materials, 110: 63-76 https://doi.org/10.1016/j.jhazmat.2004.02.037
  14. Sun, Y., Z. Demir, T. Delorenzo, & J. J. Nitao, 2000, Application of the NUFT code for subsurface remediation by bioventing, U.S. department of energy, UCRL-ID-137967
  15. U.S. EPA, 2001, Development of recommendations and methods to support assessment of soil venting performance and closure
  16. U.S. EPA. 1995a, Bioventing principles and practice, Vol I: Bioventing principles
  17. U.S. EPA, 1995b, Bioventing principles and practice, Vol II: Bioventing Design
  18. Zaidi, A. S., A. Jassim, F. Mohsen, and M. Hussain, Design of an effective remediation method for hydrocarbon contaminated soil, The sixth annual U.A.E. university research conference, STD-109-118