尼日尔三角洲陆上勘探油田三维地震数据的折射静力学求解方法

Pub Date : 2019-07-31 DOI:10.7494/GEOL.2019.45.2.133
O. Adizua, Kenechukwu Emmanuel Anakwuba, Ajana Godwin Onwuemesi
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引用次数: 1

摘要

在之前的一项研究中(Adizua等人,2019),利用折射到达反演和微孔测量相结合的综合方法,成功地对尼日尔三角洲陆上远景油田进行了近地表成像和表征。该研究的结果揭示了远景油田近地表(0-500米)的地层特征,现在被用作一个起始模型,以获得一个完整的折射静力学解决方案,适用于处理远景油田的三维地震数据集。导出的完整静力解包括场或基准静力、折射静力和1、2剩余静力,解决了未解决和剩余的空间长短波长静力对整个研究场轨迹的影响。然后将综合解决方案整合到PROMAXTM程序中,并使用适当的流动命令应用于地震数据集,以执行静校正程序。在FFID配置下,对现场拍摄集进行了静态校正。应用静力校正后,对几个射击集的结果进行了分析,结果表明,轨迹被调整回适当的位置。反射镜变得更好地对准并呈现出接近双曲线的模式,这是一个积极的迹象,表明推导和应用的折射静力学解决方案最适合该数据集。
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Derivation of refraction statics solution for 3D seismic data in an onshore prospect Niger Delta field
The near-surface imaging and characterization of an onshore prospect field in the Niger Delta was successfully carried out in a previous study (Adizua et al. 2019) using an integrated approach of combining inversion of refracted arrivals and uphole measurements. The output of that study which revealed the layer characteristics of the near-surface (0–500 m) over the prospect field is now being used as a starting model to derive a complete refraction statics solution to be adapted for processing the 3D seismic dataset from the prospect field. The complete statics solution derived included the field or datum statics, refraction statics, and the 1st and 2nd residual statics which addressed the unresolved and remnant spatial long and short wavelength statics effect on the traces across the investigated field. The comprehensive solution was then incorporated into a PROMAXTM routine and applied to the seismic datasets using appropriate flow commands to perform the statics correction procedure. The outcome of the derived and implemented statics correction was demonstrated on shot gathers from the field in FFID configuration. Results from the several shot gathers analyzed after the application of the statics correction across the field showed that traces were adjusted back to their appropriate positions. The reflectors became better aligned and assumed a near-hyperbolic pattern which is a positive indication that the derived and applied refraction statics solution was the most appropriate for the dataset.
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