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Numerical Modelling of Borehole-Surface CSEM Response of Onshore Gas Hydrate Deposit with Higher Order Finite Difference Method
Omisore, Busayo Oreoluwa1; Jin, Sheng1; Fayemi, Olalekan2
2020-03-01
Source PublicationJOURNAL OF APPLIED GEOPHYSICS
ISSN0926-9851
Volume174Pages:17
AbstractThe recent increase in energy demand has propelled research on the discovery of unconventional energy sources as conventional oil and gas reservoirs are been depleted. Hence, in this study, we investigate the feasibility of using the Borehole Controlled Source Electromagnetic (BSCSEM) method for gas hydrate exploration in Qilian Mountain, China. To achieve this, we developed an accurate and efficient forward modeling code for the simulation of electromagnetic diffusion problems based on the total field formulation using the Frequency Domain Finite Difference (FDFD) approach. We used large grid sizes to reduce the computational cost of simulating the borehole to surface responses and also examined the effect of applying the Perfectly Matched Layer (PML) on the BSCSEM computational area. Subsequently, we investigate the effects of the higher and lower-order approximations and used spatial operators of the lower order and first-order accuracy in substantial parts of the computational domain including but not limited to layer boundaries during the solution process. We also investigate responses from different source orientations and source length, with a focus on the electric dipoles for 2D and 3D models of buried resistive targets. Finally, we performed 2D modeling to detect onshore gas hydrate deposit for known scenarios using a suitable BSCSEM configuration for 200 m borehole dipole with an average current of 10 A. Our results generally indicate that the BSCSEM responses from the vertical transmitters were highly effective in characterizing the resistive layers as well as the measurement of the vertical component of the electric field. By changing the depth of the vertical dipole sources, we found out that BSCSEM showed the ability to gain information about the subsurface medium from different angles. Hence, we conclude that in a complex environment, the combined use of the horizontal and the vertical transmitters to acquire three component (3C) field data and the joint analysis of their electric responses helps to delineate the subsurface structure more clearly. (C) 2020 Elsevier B.V. All rights reserved.
KeywordGas hydrate Borehole - Surface CSEM Finite difference frequency domain Higher order
DOI10.1016/j.jappgeo.2020.103968
WOS KeywordINVERSION
Language英语
WOS Research AreaGeology ; Mining & Mineral Processing
WOS SubjectGeosciences, Multidisciplinary ; Mining & Mineral Processing
WOS IDWOS:000527303000017
PublisherELSEVIER
Citation statistics
Document Type期刊论文
Identifierhttp://ir.iggcas.ac.cn/handle/132A11/95570
Collection其他部门
Corresponding AuthorJin, Sheng
Affiliation1.China Univ Geosci, Sch Geophys & Informat, Beijing 100028, Peoples R China
2.Univ Chinese Acad Sci, Inst Geol & Geophys, Beijing 100029, Peoples R China
Recommended Citation
GB/T 7714
Omisore, Busayo Oreoluwa,Jin, Sheng,Fayemi, Olalekan. Numerical Modelling of Borehole-Surface CSEM Response of Onshore Gas Hydrate Deposit with Higher Order Finite Difference Method[J]. JOURNAL OF APPLIED GEOPHYSICS,2020,174:17.
APA Omisore, Busayo Oreoluwa,Jin, Sheng,&Fayemi, Olalekan.(2020).Numerical Modelling of Borehole-Surface CSEM Response of Onshore Gas Hydrate Deposit with Higher Order Finite Difference Method.JOURNAL OF APPLIED GEOPHYSICS,174,17.
MLA Omisore, Busayo Oreoluwa,et al."Numerical Modelling of Borehole-Surface CSEM Response of Onshore Gas Hydrate Deposit with Higher Order Finite Difference Method".JOURNAL OF APPLIED GEOPHYSICS 174(2020):17.
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