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The application of integrated geophysical methods to the prospecting for deep geothermal resource |
SUN Zhong-Ren1, YANG Dian-Chen2, ZHAO Xue-Juan1 |
1. Shenyang Institute of Geology and Mineral Resources, Shenyang 110033, China;
2. Liaoning Institute of Water Conservancy and Hydropower Survey and Design, Shenyang 110006, China |
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Abstract Currently, increasing attention is paid to the green energy, and tourism has become a critical part of modern people's lives. In such a situation, geothermal exploration becomes more and more important in geophysical work because the targets of geothermal exploration are relatively deep, and their burial depths are about 1 km, or even up to 3 km or deeper. The single geophysical method is commonly employed and, as a result, the understanding of result is unclear, and the geological interpretation is not effective. In this study, the authors carried out a geothermal survey, in which the magnetic, CSAMT, TEM, MT/AMT (using EH-4 and V8 instruments) methods were employed. Multiple geophysical methods can supply multi-parameter information, and can cross-validate the effectiveness of each method. The successful selection of drilling targets demonstrated that the employment of integrated geophysical methods is an effective solution in challengeable exploration tasks.
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Received: 18 June 2016
Published: 10 February 2017
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