首页|Characterizing leachate contamination in a landfill site using Time Domain Electromagnetic (TDEM) imaging
Characterizing leachate contamination in a landfill site using Time Domain Electromagnetic (TDEM) imaging
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NSTL
Elsevier
Time Domain Electromagnetic (TDEM) survey as well as drilling investigations were conducted to identify possible contamination of a dumping site in an unsaturated zone located in Barka, Oman. The method was applied to evaluate conductivity of the contaminated plumes in hot and arid/semiarid region, where high temperatures commonly ranged between 35 and 50 degrees C. The drilling investigation was carried out over the survey area to verify the geophysical results. The low-resistivity zone (<80 Omega m), encountered near the subsurface, indicated plume migration caused by liquid waste disposal activities. The combination of TDEM survey results with the lithology of piezometers showed that higher resistivity (>90 Omega m) was correlated with compacted or cemented gravels and cobbles, particularly that of medium dense to very dense gravels and cobbles. Additionally, the TDEM profiles suggested that the plume migration followed a preferential flow path. The resistivity range 40-80 Omega m considered as contaminated areas; however, the drilling results showed the close resistivity domain in the depth >70 m below water table for some profiles (BL1, BL2, BL3, BL4 and BL5). The combined results of drilling wells, piezometers, and TDEM apparent resistivity maps showed a coincidence of the migrated leachate plume and water table. Predicted zone of the probable contamination was located at the depth of around 65 m and horizontal offset ranges 0-280 m, 80-240 m, and 40-85 m in the sounding traverses of BL4, BL6 and BL7, respectively. (C) 2018 Elsevier B.V. All rights reserved.
Groundwater contaminationPlume migrationTime Domain Electromagnetic (TDEM)Geophysical surveyUnsaturated zone
Baawain, Mahad S.、Al-Futaisi, Ahmed M.、Ebrahimi, A.、Omidvarborna, Hamid
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Sultan Qaboos Univ, Dept Civil & Architectural Engn, Muscat, Oman
NSTL
Elsevier
