Time-Lapse Bathymetry Processing for Seabed Subsidence Monitoring

80th EAGE Conference and Exhibition 2018 Pub Date : 2018-06-11 DOI:10.3997/2214-4609.201801330

P. Zaradkiewicz, E. Eriksson, P. Christian, H. Klemm, P. Hickman

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Abstract

Summary Seabed subsidence caused by reservoir compaction is a common phenomenon occurring during oil and gas production. In the offshore environment it is monitored using GPS (Global Positioning System) receivers on surface installations such as production platforms. However, the area affected by seabed subsidence can extend away from this single point of measurement, especially when the reservoirs are produced using long horizontal wells. To fully map the subsiding area dedicated seabed surveys are required. In absence of dedicated time-lapse seabed surveys we decided to use bathymetry data recorded during 3D and 4D seismic surveys over several fields in the Danish sector of the North Sea. Due to limited accuracy and sparse spatial resolution such data are rarely used for seabed bathymetry and subsidence measurements. However, by developing a dedicated processing workflow it has been possible to significantly improve the estimated accuracy of the subsidence calculation to 0.3m. This extended abstract describes the data processing workflow, the results and their current utilization in geomechanics and reservoir management. It also discusses potential future utilization in other technical areas.

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海底沉降监测的时移测深处理

储层压实引起的海底沉降是油气生产过程中常见的现象。在海上环境中，使用地面设施(如生产平台)上的GPS(全球定位系统)接收器对其进行监控。然而，受海底沉降影响的区域可能会超出这一单一测量点，特别是当油藏采用长水平井开采时。为了全面绘制下沉区域的地图，需要进行专门的海底调查。由于没有专门的延时海底调查，我们决定使用在北海丹麦部分几个油田的3D和4D地震调查中记录的测深数据。由于精度有限和空间分辨率稀疏，这些数据很少用于海底测深和沉降测量。然而，通过开发专门的处理工作流程，可以将沉降计算的估计精度显著提高到0.3m。这篇扩展摘要描述了数据处理流程、结果及其在地质力学和油藏管理中的应用。它还讨论了未来在其他技术领域的潜在利用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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80th EAGE Conference and Exhibition 2018

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