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摘要:For microseismic monitoring of hydraulic fracturing, microseismic migration can be used to image the fracture network with scattered microseismic waves. Compared with conventional microseismic location-based fracture characterization methods, microseismic migration can better constrain the stimulated reservoir volume regardless of the completeness of detected and located microseismic sources.However, the imaging results from microseismic migration may suffer from the contamination of other structures and thus the target fracture zones may not be illuminated properly. To solve this issue, in this study we propose a target-oriented staining algorithm for microseismic reverse-time migration. In the staining algorithm, the target area is first stained by constructing an imaginary velocity field and then a synchronized source wavefield only concerning the target structure is produced. As a result, a synchronized image from imaging with the synchronized source wavefield mainly contains the target structures. Synthetic tests based on a downhole microseismic monitoring system show that the target-oriented microseismic reverse-time migration method improves the illumination of target areas.
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上一条:Xiaofeng Jia(*) and Xiaodong Qiang, 2018, A frequency-domain element-free method for seismic modeling and reverse-time migration, Journal of Geophysics and Engineering, 15: 1719-1728.
下一条:Zhen Zhou, Xiaofeng Jia(*) and Xiaodong Qiang, 2018, GPU-accelerated element-free reverse-time migration with Gauss points partition, Journal of Geophysics and Engineering, 15: 718-728.