Calculation of Radius of Influence and Evaluation of Applicability of Air Sparging/Soil Vapor Extraction system for the Remediation of Petroleum Contaminated Rail Site |
Cho, Chang-Hwan
(Department of Soil and Groundwater, Korea Environ. Corp.)
Park, Joung-Ku (Department of Soil and Groundwater, Korea Environ. Corp.) Kim, Yong-Deok (Department of Soil and Groundwater, Korea Environ. Corp.) Seo, Chang-Il (Department of Soil and Groundwater, Korea Environ. Corp.) Jin, Hai-Jin (Department of Environmental Engineering, Kwangwoon University) Choi, Sang-Il (Department of Environmental Engineering, Kwangwoon University) |
1 | Amin, M.M., Hatamipour, M.S., Momenbeik, F., Nourmoradi, H., Farhadkhani, M., and Mohammadi-Moghadam, F., 2014, Toluene removal from sandy soils via in situ technologies with an emphasis on factors influencing soil vapor extraction, ScientificWorld Journal, 23, 416752. |
2 | Benner, M.L., Mohtar, R.H., and Lee, L.S., 2002, Factors affecting air sparging remediation systems using field data and numerical simulations, J. Hazard. Mater., 95(3), 305-329. DOI |
3 | Chai, J.C. and Miura, N., 2004, Field vapor extraction test and long-term monitoring at a PCE contaminated site, J. Hazard. Mater., 110(1-3), 85-92. DOI |
4 | Chu, Y., Werth, C.J., Valocchi, A.J., and Yoon, H.K., 2004, Andrew G. Webb, Magnetic resonance imaging of nonaqueous phase liquid during soil vapor extraction in heterogeneous porous media, J. Contam. Hydrol., 73(1-4), 15-37. DOI |
5 | EPA, 2004, How to Evaluate Alternative Cleanup Technologies for Underground Storage Tank Sites; A Guide for Corrective Action Plan Reviewers, EPA/510-R-04-002. |
6 | Fan, W., Yang, Y.S., Lu, Y., Du, X.Q. and Zhang, G.X., 2013, Hydrogeo-chemical impacts of air sparging remediation on a semi-confined aquifer: Evidences from field monitoring and modeling, Chemosphere, 90(4) 1419-1426. DOI |
7 | Johnston, C.D., Rayner, J.L. and Briegel, D., 2002, Effectiveness of in situ air sparging for removing NAPL gasoline from a sandy aquifer near Perth, Western Australia, J. Contam. Hydrol., 59(1-2), 87-111. DOI |
8 | Kaleris, V. and Croisé, J., 1997, Estimation of cleanup time for continuous and pulsed soil vapor extraction, Journal of Hydrology, 194(1-4), 330-356. DOI |
9 | Tsai, Y.J., 2007, Air flow paths and porosity/permeability change in a saturated zone during in situ air sparging, J. Hazard. Mater., 142(1-2), 315-323. DOI |
10 | Kirtland, B.C. and C. Aelion M., 2000, Petroleum mass removal from low permeability sediment using air sparging/soil vapor extraction: impact of continuous or pulsed operation, J. Contam. Hydrol., 41(3-4), 367-383. DOI |
11 | McCray, J.E. and Falta, R.W., 1996, Defining the air sparging radius of influence for groundwater remediation, J. Contam. Hydrol., 24(1), 25-52. DOI |
12 | Nobre Manoel, M.M. and Nobre Rosane, C.M., 2004, Soil vapor extraction of chlorinated solvents at an industrial site in Brazil, J. Hazard. Mater., 110(1-3), 119-127. DOI |
13 | US Army Corps of Engineers, Engineering and design; Soil vapor extraction and bioventing, EM 1001-1-4001, June 2002. |