IGGCAS OpenIR  > 页岩气与地质工程院重点实验室
Detailed LNAPL plume mapping using electrical resistivity tomography inside an industrial building
Meng, Jian1; Dong, Yanhui2,3; Xia, Teng1; Ma, Xinmin1; Gao, Cuiling4; Mao, Deqiang1
2022-06-10
Source PublicationACTA GEOPHYSICA
ISSN1895-6572
Pages13
AbstractDetailed characterization of light non-aqueous phase liquid contaminant plume is essential for mapping remediation scope effectively. Electrical resistivity tomography is increasingly popular for delineating the geometry of subsurface contamination. In this study, the low resolution and limited penetration depth drawbacks from traditional survey arrays were resolved with optimized arrays generated using 'Compare R' method. Numerical example first proved its efficiency in locating contaminated areas under restricted survey space. The presence of ethylbenzene inside a manufacturing building has shown high resistive anomaly, and it has already leaked into deep locations from resistivity results. However, the transport of ethylbenzene was limited due to surrounding low permeable clay layer. The boundaries of the contaminant plume were further quantified using interpolated 3D resistivity results, which help to refine the remediation scope. The reconstructed scope was only 1/3 of the one from traditional borehole data interpolation, resulting in a more precise remediation cost estimate. In the end, we conclude the advantage of enhanced resolution and refined cost of remediation strategy by applying optimized array in contaminated site survey.
KeywordElectrical resistivity tomography LNAPLs 'Compare R' method Remediation scope
DOI10.1007/s11600-022-00818-3
Funding OrganizationNational Key Research and Development Program ; National Key Research and Development Program ; National Engineering Laboratory for Site Remediation Technologies ; National Engineering Laboratory for Site Remediation Technologies ; Shandong National Science Foundation ; Shandong National Science Foundation ; Qilu Youth Scholar Program of Shandong University ; Qilu Youth Scholar Program of Shandong University ; National Key Research and Development Program ; National Key Research and Development Program ; National Engineering Laboratory for Site Remediation Technologies ; National Engineering Laboratory for Site Remediation Technologies ; Shandong National Science Foundation ; Shandong National Science Foundation ; Qilu Youth Scholar Program of Shandong University ; Qilu Youth Scholar Program of Shandong University ; National Key Research and Development Program ; National Key Research and Development Program ; National Engineering Laboratory for Site Remediation Technologies ; National Engineering Laboratory for Site Remediation Technologies ; Shandong National Science Foundation ; Shandong National Science Foundation ; Qilu Youth Scholar Program of Shandong University ; Qilu Youth Scholar Program of Shandong University ; National Key Research and Development Program ; National Key Research and Development Program ; National Engineering Laboratory for Site Remediation Technologies ; National Engineering Laboratory for Site Remediation Technologies ; Shandong National Science Foundation ; Shandong National Science Foundation ; Qilu Youth Scholar Program of Shandong University ; Qilu Youth Scholar Program of Shandong University
WOS KeywordINDUCED-POLARIZATION ; CONTAMINATED SITE ; LEACHATE PLUME ; LANDFILL SITE ; INVERSION ; MIGRATION ; INTEGRATION ; SIGNATURES ; SEDIMENTS ; DESIGN
Language英语
Funding ProjectNational Key Research and Development Program[2019YFC1804900] ; National Engineering Laboratory for Site Remediation Technologies[NEL-SRT201906] ; Shandong National Science Foundation[ZR2019MEE109] ; Qilu Youth Scholar Program of Shandong University
Funding OrganizationNational Key Research and Development Program ; National Key Research and Development Program ; National Engineering Laboratory for Site Remediation Technologies ; National Engineering Laboratory for Site Remediation Technologies ; Shandong National Science Foundation ; Shandong National Science Foundation ; Qilu Youth Scholar Program of Shandong University ; Qilu Youth Scholar Program of Shandong University ; National Key Research and Development Program ; National Key Research and Development Program ; National Engineering Laboratory for Site Remediation Technologies ; National Engineering Laboratory for Site Remediation Technologies ; Shandong National Science Foundation ; Shandong National Science Foundation ; Qilu Youth Scholar Program of Shandong University ; Qilu Youth Scholar Program of Shandong University ; National Key Research and Development Program ; National Key Research and Development Program ; National Engineering Laboratory for Site Remediation Technologies ; National Engineering Laboratory for Site Remediation Technologies ; Shandong National Science Foundation ; Shandong National Science Foundation ; Qilu Youth Scholar Program of Shandong University ; Qilu Youth Scholar Program of Shandong University ; National Key Research and Development Program ; National Key Research and Development Program ; National Engineering Laboratory for Site Remediation Technologies ; National Engineering Laboratory for Site Remediation Technologies ; Shandong National Science Foundation ; Shandong National Science Foundation ; Qilu Youth Scholar Program of Shandong University ; Qilu Youth Scholar Program of Shandong University
WOS Research AreaGeochemistry & Geophysics
WOS SubjectGeochemistry & Geophysics
WOS IDWOS:000809319500001
PublisherSPRINGER INT PUBL AG
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Document Type期刊论文
Identifierhttp://ir.iggcas.ac.cn/handle/132A11/106066
Collection页岩气与地质工程院重点实验室
Corresponding AuthorMao, Deqiang
Affiliation1.Shandong Univ, Sch Civil Engn, Jinan 250061, Peoples R China
2.Chinese Acad Sci, Inst Geol & Geophys, Beijing 100029, Peoples R China
3.Natl Engn Lab Site Remediat Technol, Beijing 100015, Peoples R China
4.Shandong Inst Prod Qual Inspect, Jinan 250102, Peoples R China
Recommended Citation
GB/T 7714
Meng, Jian,Dong, Yanhui,Xia, Teng,et al. Detailed LNAPL plume mapping using electrical resistivity tomography inside an industrial building[J]. ACTA GEOPHYSICA,2022:13.
APA Meng, Jian,Dong, Yanhui,Xia, Teng,Ma, Xinmin,Gao, Cuiling,&Mao, Deqiang.(2022).Detailed LNAPL plume mapping using electrical resistivity tomography inside an industrial building.ACTA GEOPHYSICA,13.
MLA Meng, Jian,et al."Detailed LNAPL plume mapping using electrical resistivity tomography inside an industrial building".ACTA GEOPHYSICA (2022):13.
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