First Abu Dhabi 2D/3D Seismic Merge. Fast Track Approach For Seismic Data Integration at Regional Scale in Exploration Studies

Humberto Parra, M. Caeiro, F. Neves, J. Gomes
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引用次数: 1

Abstract

One of the main challenges in the execution of regional studies is the integration of large amounts of data coming from different sources and different disciplines. Even within the geophysical domain, integration of thousands of 2D seismic lines and dozens of 3D seismic volumes is a very demanding task. The aim of this paper is to provide a description on the use of fast track methodologies for the integration of 3D and 2D seismic data at country level for regional studies. This approach relies on a pragmatic way of merging seismic, processing data as point sets instead of traces, providing the flexibility of handling seismic information inside the geomodelling and geostatistical domain, where a grid of points can be resampled, reoriented, and ultimately merged into any desired geometry and resolution. The technical challenges include different spatial sampling, grid orientations, frequency contents and event timings. A preconditioning step has been included in the workflow in order to homogenize the data into a common ground, addressing compatibility issues of the different vintages through amplitude scaling, noise reduction and frequency balancing. Merging in a practical approach different 2D/3D seismic data sets into a single volume reduces drastically the amount of time spent in the data analysis and interpretation of geological features at regional scale. In this case of study, the workflow enables a feasible path for merging all seismic data acquired in Abu Dhabi over the past seven decades. The integrated volume helps geophysicists and geologists to carry out better seismic interpretations and perform proper structural analysis and prospect assessments. Finally, the seismic data has been integrated into a unique survey by interpolating the 2D and 3D seismic data to fill the gaps and generating a pseudo 3D survey at country scale. This regional scale single 3D seismic data allows better understanding of the geological and structural trends present in Abu Dhabi. This innovative approach offers a major advantage for regional data integration, expediting subsequent stages of seismic interpretation and description of the geological features at large scale for exploration assessments, prospect generation and 3D reservoir characterization.
首次阿布扎比2D/3D地震合并。勘探研究中区域尺度地震数据集成的快速通道方法
执行区域研究的主要挑战之一是整合来自不同来源和不同学科的大量数据。即使在地球物理领域,整合数千条二维地震线和数十个三维地震体也是一项非常艰巨的任务。本文的目的是描述在国家一级用于区域研究的3D和2D地震数据集成的快速通道方法的使用。这种方法依赖于一种实用的地震合并方法,将数据作为点集而不是轨迹处理,在地质建模和地质统计领域内提供处理地震信息的灵活性,其中点网格可以重新采样,重新定向,并最终合并为任何所需的几何形状和分辨率。技术挑战包括不同的空间采样、网格方向、频率内容和事件定时。工作流中包含了预处理步骤,以便将数据均匀化为一个共同点,通过幅度缩放、降噪和频率平衡来解决不同年份的兼容性问题。通过一种实用的方法,将不同的2D/3D地震数据集合并到一个单独的体量中,大大减少了在区域尺度上进行数据分析和解释地质特征所花费的时间。在本案例中,该工作流程为合并过去70年在阿布扎比获得的所有地震数据提供了可行的途径。整合的体积有助于地球物理学家和地质学家进行更好的地震解释,并进行适当的结构分析和前景评估。最后,通过插值二维和三维地震数据,将地震数据整合到一个独特的调查中,以填补空白,并在国家尺度上生成伪三维调查。这种区域尺度的单一三维地震数据可以更好地了解阿布扎比的地质和构造趋势。这种创新的方法为区域数据整合提供了主要优势,加快了后续阶段的地震解释和大规模地质特征描述,用于勘探评估、远景生成和三维储层表征。
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