Identifying deep saturated coal bed zones in China through the use of large loop TEM

Most of the shallow mineral deposits of China have already been mined because of the country's fast-growing social and economic development. Consequently, the exploration and mining of deep-seated coal deposits have become alternative ways to satisfy the energy needs for both domestic and indus...

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Bibliographic Details
Published inJournal of environmental & engineering geophysics Vol. 23; no. 1; pp. 135 - 142
Main Authors Xue Guoqiang, Xue Guoqiang, Chen Weiying, Chen Weiying, Ma Zhenjun, Ma Zhenjun, Hou Dongyang, Hou Dongyang
Format Journal Article
LanguageEnglish
Published Environmental and Engineering Geophysical Society 01.03.2018
Subjects
applied (geophysical surveys & methods)
Asia
carbonate rocks
Carboniferous
Cenozoic
China
clastic rocks
coal deposits
coal exploration
coal mines
drilling
Economic geology
electromagnetic methods
energy sources
Far East
Fushan China
geophysical methods
geophysical surveys
Geophysics
hypsometry
limestone
mines
mudstone
Ordovician
Paleozoic
Permian
Quaternary
sandstone
sedimentary rocks
Shanxi China
surveys
transient methods
well-logging
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Summary:Most of the shallow mineral deposits of China have already been mined because of the country's fast-growing social and economic development. Consequently, the exploration and mining of deep-seated coal deposits have become alternative ways to satisfy the energy needs for both domestic and industrial use. To ensure safe mining practices and avoid the intrusion of water from the bases of coal deposits, it has become essential to investigate the distribution of deep-seated coal deposits using appropriate and cost-effective geophysical methods. For example, a coal mine located in the southern part of China's Shanxi Province is characterized by a roof of dry rocks, whereas the coal beds in this area are saturated. A new technique which uses a large loop transient electromagnetic method (hereafter referred to as a modified central loop TEM) to detect geological targets located at deeper levels in the subsurface was successfully developed and applied in this study. The detection abilities of this technique, such as the time-domain responses and depth of investigation, as well as its sensitivity to deep targets, were analyzed. This new method was successfully employed to detect the floor of a 900 m deep coal seam at the location of the saturated coal beds in Shanxi Province. Wells were drilled to confirm the results, showing that the proposed method is both applicable and convenient for future exploration purposes. TEM could potentially be used to detect geological materials located at greater depths with higher detection accuracy.
ISSN:1083-1363
1943-2658
DOI:10.2113/JEEG23.1.135