Fault Identification Based on Wide-Azimuth Seismic Data: A Case Study in the Bohai Bay

Fault Identification Based on Wide-Azimuth Seismic Data: A Case Study in the Bohai Bay

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摘要 Full-azimuth common reflection-angle gathers could be stacked at any azimuth. The stacked data at the azimuth perpendicular to fractures exhibit the largest azimuthal anisotropy, while the stacked data at the azimuth parallel to fractures exhibit the smallest azimuthal anisotropy. In petroleum exploration in Block A, a neritic province in the Bohai Bay, we use the stacked data at the azimuth perpendicular to fractures to improve fault interpretation. We also use attribute fusion to identify fractures in different directions. Full-azimuth common reflection-angle gathers could be stacked at any azimuth. The stacked data at the azimuth perpendicular to fractures exhibit the largest azimuthal anisotropy, while the stacked data at the azimuth parallel to fractures exhibit the smallest azimuthal anisotropy. In petroleum exploration in Block A, a neritic province in the Bohai Bay, we use the stacked data at the azimuth perpendicular to fractures to improve fault interpretation. We also use attribute fusion to identify fractures in different directions.

作者 Sian Zhu Hongtao Chen Yongjun Hu Yubin Feng Chunzhi Zhang

机构地区 Dagang Branch

出处《Journal of Geoscience and Environment Protection》 2019年第5期294-299,共6页 地球科学和环境保护期刊（英文）

关键词 WIDE AZIMUTH Fault Identification AZIMUTH STACK Bohai BAY Basin AZIMUTH Fusion Wide Azimuth Fault Identification Azimuth Stack Bohai Bay Basin Azimuth Fusion

分类号 P315 [天文地球—地震学]

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Journal of Geoscience and Environment Protection

2019年第5期

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Fault Identification Based on Wide-Azimuth Seismic Data: A Case Study in the Bohai Bay

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