Atlantis — 20 years of seismic innovation finally removes the shroud of mystery

Q2 Earth and Planetary Sciences
Leading Edge Pub Date : 2023-06-01 DOI:10.1190/tle42060406.1
Samuel I Buist, Li Jiang, Obi Egbue, Daniel Tebo, Luis Lopez, Zhiyuan Wei, A. Hao, Chi Chen
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引用次数: 0

Abstract

The Atlantis Field has gone through more than two decades of continuous seismic imaging efforts, during which time many innovative technologies were incubated, the most recent one being the successful application of full-waveform inversion (FWI) in salt environments. This technique led to a significant improvement in the subsalt image. However, imaging challenges remain for the Atlantis reservoirs, primarily due to the complex overburden salt geometries and the highly compartmentalized reservoir. Even with an improved velocity model from FWI, the conventional reverse time migration (RTM) images still suffer from illumination issues and contain strong migration swings that hinder the subsalt imaging and subsequent interpretations. Furthermore, early versions of FWI employed an acoustic assumption, leading to visible salt halos at the salt boundaries in the velocity model, which adversely impacted the reservoir imaging. In the last 12 months, elastic time-lag FWI (TLFWI) and FWI-derived reflectivity (FDR) imaging using long-offset ocean-bottom node data have minimized these imaging issues at Atlantis, providing another step change in subsalt understanding. Although the 3D RTM images using the elastic FWI velocity model are similar overall to their acoustic counterparts, the 4D time-lapse RTM images at Atlantis show noticeable improvements. Furthermore, FDR images derived from elastic FWI velocities show obvious benefits over the acoustic ones. With a more accurate modeling engine that allows for better match between synthetic and real data, FDR imaging shows improved illumination, higher signal-to-noise ratio, and better reservoir details over acoustic FDR imaging. This recent advancement in using elastic TLFWI has had immediate positive effects in facilitating the Atlantis Field's current and future development.
亚特兰蒂斯- 20年的地震创新终于揭开了神秘的面纱
亚特兰蒂斯油田经历了20多年的地震成像工作,在此期间孕育了许多创新技术,最近的一项成功应用是全波形反演(FWI)在盐环境中的应用。该技术显著改善了盐下图像。然而,亚特兰蒂斯储层的成像仍然存在挑战,主要是由于复杂的上覆盐几何形状和高度分隔的储层。即使使用了FWI改进的速度模型,传统的逆时偏移(RTM)图像仍然存在光照问题,并且包含强烈的偏移波动,这阻碍了盐下成像和随后的解释。此外,早期版本的FWI采用了声学假设,导致速度模型中盐边界处可见盐晕,这对储层成像产生了不利影响。在过去的12个月里,使用长偏移量海底节点数据的弹性滞后FWI (TLFWI)和FWI衍生反射率(FDR)成像技术将亚特兰蒂斯的这些成像问题降至最低,为盐下理解提供了又一个台阶。尽管使用弹性FWI速度模型的3D RTM图像总体上与声学图像相似,但亚特兰蒂斯的4D延时RTM图像显示出明显的改进。此外,从弹性FWI速度获得的FDR图像比声学图像显示出明显的优势。与声学FDR成像相比,FDR成像具有更精确的建模引擎,可以更好地匹配合成数据和真实数据,从而显示出更好的照明、更高的信噪比和更好的储层细节。弹性TLFWI的最新进展对亚特兰蒂斯油田当前和未来的开发产生了直接的积极影响。
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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来源期刊
Leading Edge
Leading Edge Earth and Planetary Sciences-Geology
CiteScore
3.10
自引率
0.00%
发文量
180
期刊介绍: THE LEADING EDGE complements GEOPHYSICS, SEG"s peer-reviewed publication long unrivalled as the world"s most respected vehicle for dissemination of developments in exploration and development geophysics. TLE is a gateway publication, introducing new geophysical theory, instrumentation, and established practices to scientists in a wide range of geoscience disciplines. Most material is presented in a semitechnical manner that minimizes mathematical theory and emphasizes practical applications. TLE also serves as SEG"s publication venue for official society business.
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