地下异常体电阻率反演研究进展

Yanchang Liu, Weifang Kong, Ke Du, Tongming Liu, Yuliln Wang
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摘要

随着中国石油的开发,大部分油田已进入高含水开发阶段。井地电阻率法作为一种新型的电法勘探方法,具有对地层影响小、测量成本低的优点,逐渐成为剩余油分布的电阻率探测反演中的关键技术之一,通过观测地下空间视电阻率数据重建地下电阻率分布,可以实现对地下空间的电阻率成像。为了实现地下电阻率异常区的形态表征和空间定位,进而进行地质解释,总结了电阻率反演的定义和性质,并对实际工程应用中遇到的瓶颈问题进行了重新认识和分析。在此基础上,介绍了解决地下异常体电阻率反演问题的理论方法、数值方法和基于机器学习的反演方法。重点介绍了基于深度学习的反演方法,并对其优缺点和适用性进行了评价。指出反演是一种理想的数据分析工具。在此基础上,提出了基于深度学习的优化反演网络结构是地下异常体电阻率反演的发展方向。
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Review on Resistivity Inversion of Underground Abnormal Bodies
: With the development of petroleum in China, most oilfields have entered the stage of high water cut development. Well ground resistivity method as a new type of electric prospecting method, which have influence on the formation of small, measuring low cost advantages, gradually become one of the key technology of remaining oil distribution in the detection of resistivity inversion is through observation of the underground space apparent resistivity data reconstruction of the underground resistivity distribution, can realize the resistivity imaging of the underground space. In order to achieve the morphological characterization and spatial location of the abnormal area of underground resistivity, and then to carry out geological interpretation, the definition and properties of resistivity inversion are summarized, and the bottleneck problems encountered in practical engineering application are re-recognized and analyzed. On this basis, the theoretical method, numerical method and inversion method based on machine learning are introduced to solve the inverse resistivity problem of underground abnormal body. The inversion method based on deep learning is emphatically introduced, and its advantages and disadvantages and applicability are evaluated. It is pointed out that inversion is an ideal tool for data analysis. Then, it is pointed out that the development direction of resistivity inversion of underground abnormal body is to propose an optimized inversion network architecture based on deep learning.
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