三维地震资料连续处理关键技术及其应用——以柴达木盆地扎哈泉北坡地区为例

Yulian Zhao, Tao Zhang, Xinyuan Feng, Yue Ling, Xilin Wang, Junfa Xie
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引用次数: 0

摘要

柴达木盆地扎哈泉北坡地区地表条件复杂,地下受构造挤压运动影响,断裂、裂缝发育。该地区现有的6块三维地震数据采集时间跨度大,数据质量参差不齐。现有的单区块处理结果表明,三维地震数据连接区域的信噪比较低,并且在频率、相位和能量方面存在很大差异。裂缝成像较差,难以在空间上准确识别和跟踪层位和断面,制约了该地区的进一步勘探。在详细分析原始数据特点及存在问题的基础上,对该区6块三维地震数据进行了连续处理的关键技术研究,包括连续静校正、叠前噪声净化、一致性处理、数据正则化、各向异性叠前时间偏移等。处理结果在频率、相位、能量等方面具有较好的一致性,反射特征突出,对中深层复杂结构成像清晰。清晰的断点和断层面也很明显,解决了频率、相位、能量不一致、块连接段覆盖不全的问题。解决了由于运移速度场不一致导致的运移定位不准确的问题,为后续的构造解释和储层预测提供了高质量的数据。
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The key technology of 3D seismic data contiguous processing and its application: Taking the northern slope area of Zhahaquan in Qaidam Basin as an example

The surface conditions in the northern slope area of Zhahaquan in the Qaidam Basin are complex, and the underground is affected by tectonic extrusion movements, resulting in the development of faults and fractures. The existing six blocks of 3D seismic data in this area have a significant time span in acquisition and varying data quality. The existing single-block processing results indicate a low signal-to-noise ratio in the 3D seismic data connection area, along with substantial differences infrequency, phase, and energy. The fracture imaging is poor, making it challenging to accurately identify and track layer positions and fault planes in space, thereby restricting further exploration in this region. Based on a detailed analysis of the characteristics and existing problems of the original data, we conducted key technical research on continuous static correction, pre-stack noise purification, consistency processing, data regularization, and anisotropic pre-stack time migration for continuous processing of six blocks of 3D seismic data in this area. The processing results demonstrate good consistency in frequency, phase, energy, and other aspects, highlighting prominent reflection characteristics and clear imaging of complex structures in the middle and deep layers. Clear breakpoints and fault planes are also evident, solving the inconsistency of frequency, phase, energy, and incomplete coverage in the block connection section. Additionally, this processing has resolved the problem of inaccurate migration positioning caused by inconsistent migration velocity fields, providing high-quality data for subsequent structural interpretation and reservoir prediction.

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