带地形频率域可控源电磁法三维反演研究

Cheng Zhu; Tonglin Li; Haibin  Yang; Yongliang Liu; Liang Wu; Yingcai Hu

doi:10.13810/j.cnki.issn.1000-7210.2016.05.024

带地形频率域可控源电磁法三维反演研究

Bidragets oversatte titel: 3D controlled source electromagnetic inversion with topography in the frequency domain

Cheng Zhu, Tonglin Li^*, Haibin Yang, Yongliang Liu, Liang Wu, Yingcai Hu

^*Corresponding author af dette arbejde

Institut for Geovidenskab og Naturforvaltning

6 Citationer (Scopus)

Abstract

Seismic exploration is sometimes unsuccessful in some areas with difficult geological and topographical conditions such as complex mountainous area. Experiments show that the joint application with seismic and non-seismic methods especially electromagnetic (EM) is an effective way to ensure high quality prospecting. This paper discusses the theory and algorithm of three dimensional forward modeling and inversion of controlled-source electromagnetic method (CSEM) with topography, which is tested to be accurate in theoretical data inversion. The paper consists of two parts: 3D forward modeling and non-linear conjugate gradient (NLCG) inversion. For 3D forward modeling, the finite difference based on scattered fields is implemented, and the obtained apparent resistivity in far field is similar with that of magnetolluric (MT) method on a typical model. Therefore the forward modeling algorithm is suitable and accurate. On the other hand, NLCG is used in the 3D inversion and initial solution optimization is adopted, which can efficiently reduce computation time consumption. Numerical experiments illustrate that the distribution of anomalous bodies can be well recovered by the proposed inversion and the initial solution optimization can dramatically reduce computation time consumption.

Bidragets oversatte titel	3D controlled source electromagnetic inversion with topography in the frequency domain
Originalsprog	Kinesisk
Tidsskrift	Shiyou Diqiu Wuli Kantan/Oil Geophysical Prospecting
Vol/bind	51
Udgave nummer	5
Sider (fra-til)	1031-1039
Antal sider	9
ISSN	1000-7210
DOI	https://doi.org/10.13810/j.cnki.issn.1000-7210.2016.05.024
Status	Udgivet - 15 sep. 2016

Adgang til dokumentet

10.13810/j.cnki.issn.1000-7210.2016.05.024

Citationsformater

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title = "带地形频率域可控源电磁法三维反演研究",

abstract = "Seismic exploration is sometimes unsuccessful in some areas with difficult geological and topographical conditions such as complex mountainous area. Experiments show that the joint application with seismic and non-seismic methods especially electromagnetic (EM) is an effective way to ensure high quality prospecting. This paper discusses the theory and algorithm of three dimensional forward modeling and inversion of controlled-source electromagnetic method (CSEM) with topography, which is tested to be accurate in theoretical data inversion. The paper consists of two parts: 3D forward modeling and non-linear conjugate gradient (NLCG) inversion. For 3D forward modeling, the finite difference based on scattered fields is implemented, and the obtained apparent resistivity in far field is similar with that of magnetolluric (MT) method on a typical model. Therefore the forward modeling algorithm is suitable and accurate. On the other hand, NLCG is used in the 3D inversion and initial solution optimization is adopted, which can efficiently reduce computation time consumption. Numerical experiments illustrate that the distribution of anomalous bodies can be well recovered by the proposed inversion and the initial solution optimization can dramatically reduce computation time consumption.",

keywords = "3D inversion, Controlled-source electromagnetic (CSEM), Non-linear conjugate gradient (NLCG), Topography",

author = "Cheng Zhu and Tonglin Li and Haibin Yang and Yongliang Liu and Liang Wu and Yingcai Hu",

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T1 - 带地形频率域可控源电磁法三维反演研究

AU - Zhu, Cheng

AU - Li, Tonglin

AU - Yang, Haibin

AU - Liu, Yongliang

AU - Wu, Liang

AU - Hu, Yingcai

PY - 2016/9/15

Y1 - 2016/9/15

N2 - Seismic exploration is sometimes unsuccessful in some areas with difficult geological and topographical conditions such as complex mountainous area. Experiments show that the joint application with seismic and non-seismic methods especially electromagnetic (EM) is an effective way to ensure high quality prospecting. This paper discusses the theory and algorithm of three dimensional forward modeling and inversion of controlled-source electromagnetic method (CSEM) with topography, which is tested to be accurate in theoretical data inversion. The paper consists of two parts: 3D forward modeling and non-linear conjugate gradient (NLCG) inversion. For 3D forward modeling, the finite difference based on scattered fields is implemented, and the obtained apparent resistivity in far field is similar with that of magnetolluric (MT) method on a typical model. Therefore the forward modeling algorithm is suitable and accurate. On the other hand, NLCG is used in the 3D inversion and initial solution optimization is adopted, which can efficiently reduce computation time consumption. Numerical experiments illustrate that the distribution of anomalous bodies can be well recovered by the proposed inversion and the initial solution optimization can dramatically reduce computation time consumption.

AB - Seismic exploration is sometimes unsuccessful in some areas with difficult geological and topographical conditions such as complex mountainous area. Experiments show that the joint application with seismic and non-seismic methods especially electromagnetic (EM) is an effective way to ensure high quality prospecting. This paper discusses the theory and algorithm of three dimensional forward modeling and inversion of controlled-source electromagnetic method (CSEM) with topography, which is tested to be accurate in theoretical data inversion. The paper consists of two parts: 3D forward modeling and non-linear conjugate gradient (NLCG) inversion. For 3D forward modeling, the finite difference based on scattered fields is implemented, and the obtained apparent resistivity in far field is similar with that of magnetolluric (MT) method on a typical model. Therefore the forward modeling algorithm is suitable and accurate. On the other hand, NLCG is used in the 3D inversion and initial solution optimization is adopted, which can efficiently reduce computation time consumption. Numerical experiments illustrate that the distribution of anomalous bodies can be well recovered by the proposed inversion and the initial solution optimization can dramatically reduce computation time consumption.

KW - 3D inversion

KW - Controlled-source electromagnetic (CSEM)

KW - Non-linear conjugate gradient (NLCG)

KW - Topography

U2 - 10.13810/j.cnki.issn.1000-7210.2016.05.024

DO - 10.13810/j.cnki.issn.1000-7210.2016.05.024

M3 - Tidsskriftartikel

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JO - Shiyou Diqiu Wuli Kantan/Oil Geophysical Prospecting

JF - Shiyou Diqiu Wuli Kantan/Oil Geophysical Prospecting

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