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| The key test of gravel exploration in the piedmont area of Zhunan Mountain based on the wide field electromagnetic method |
ZHANG Guang-Da( ), GU Zhi-Wen, ZOU Zhong-Ping |
| Sichuan Zhongcheng Coal Field Geophysical Engineering Research Institute Co., Ltd.,Chengdu 610072,China |
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Abstract However, the prospect of oil resources exploration and development in Xinjiang is far beyond these achievements, and there are still large-scale reserves lying underground. The piedmont area at the south edge of Junggar Basin is one of the key areas. However, the exploration in this area is very difficult; especially in the piedmont area on the southern margin of Junggar Basin, the gravel layer is widely distributed and deeply buried, and the buried depth of some sections is even more than 1km, which brings great challenges to seismic exploration and other exploration methods. This paper analyzes the application effect of the wide field electromagnetic method in the piedmont area on the south margin of Junggar Basin, expounds the application effect of the electromagnetic method in the exploration of shallow gravel layer and deep concealed structure, and indicates that the electromagnetic method has great potential in oil exploration.
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Received: 26 April 2020
Published: 26 October 2020
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Structural location of work area
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| 地层分层 | 电阻率范围
/(Ω·m) | 正态分布统计电阻率
平均值/(Ω·m) | 电阻率特征 | | Q+N2d | 2~220 | 49.2 | 表层高阻 | | N1t-K | 1~16 | 1.9 | 低阻 | | J3q | 5~40 | 20.6 | 相对高阻 |
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Statistics of rock resistivity
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Data processing flow of WFEM
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Conglomerate calibration interpretation results of line 1 inversion resistivity section
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WFEM inversion resistivity section in line1 and geological interpretation inference
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High resolution mapping of first derivative of inversion resistivity by WFEM in line 1
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High resolution mapping of second derivative of resistivity by WFEM in line 1
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