The application of the comprehensive static correction technology in complex areas
Bai Xuming1, Cui Hongliang1,2, Yuan Shenghui1, Liu Jiangtao1,2, Cheng Zhanzhan1, Hu Qing1,2
1. North China Geophysical Exploration Department of BGP, CNPC, Renqiu 062552, China;
2. School of Geophysics and Information Engineering, China University of Petroleum, Beijing 102200, China
Surface velocity and thickness show heterogeneity in complex areas. With the increasingly deep exploration and the complexity of the surveyed areas, static correction problems become more and more prominent and even seriously trouble the seismic acquisition. In order to greatly improve the data quality and imaging precision in the complex seismic exploration areas and meet the needs of the fine oil and gas accumulation exploration in these complex exploration areas characterized by multiple solutions of the surface structure, serious surface adsorption attenuation, low S/N ratios and resolutions and difficult imaging, the authors carried out detailed studies of the statics method based on the FBT of a single source, performed the high and low frequency static separation and integrated the static correction technology. The application of the statics technology shows that S/N can be greatly improved, and good imaging effects can be obtained. The technology can solve not only short wavelength problems but also the long wavelengths problem, thus achieving good exploration results.
白旭明, 崔宏良, 袁胜辉, 刘江涛, 程展展, 胡清. 复杂探区综合静校正技术的应用[J]. 物探与化探, 2014, (3): 582-586.
Bai Xuming, Cui Hongliang, Yuan Shenghui, Liu Jiangtao, Cheng Zhanzhan, Hu Qing. The application of the comprehensive static correction technology in complex areas. Geophysical and Geochemical Exploration, 2014, (3): 582-586.