Quantification of Injected CO2 Volumes from 4D Seismic Anomalies & Associated Uncertainties

EAGE GeoTech 2022 Sixth EAGE Workshop on CO2 Geological Storage Pub Date : 1900-01-01 DOI:10.3997/2214-4609.20224018

T. Berridge, E. Rebel, T. Blanchard, D. Rappin, C. Le Magoarou

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Abstract

CO 2 capture and geological storage (CCS) is one solution among others to reduce greenhouse gas emission and mitigate climate change in a fossil fuel-dependent world. To be efficient, CCS technologies will have to be deployed at large scale, with the goal of storing Giga Tons of CO 2 . Several monitoring technologies are available today to ensure the safety of these storage operations by tracking the CO 2 plume in the reservoir to verify that the injected gas remains well contained and is not leaking out of the reservoir to shallower formations. Among the different techniques established to monitor CO 2 injection, 4D (time-lapse) seismic is one of the most accurate to determine the spatio-temporal evolution of the plume (as seen in the Sleipner and Snøhvit cases). 4D active seismic benefits from large amount of know-how from the oil and gas industry and, when justified by a feasibility study, is one of the techniques that is most frequently used for CCS monitoring. However, quantification of the injected CO 2 volumes directly from 4D anomalies is something that remains difficult, with uncertainties arising from several places including:

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从四维地震异常及相关不确定性中量化注入二氧化碳体积

在一个依赖化石燃料的世界里，二氧化碳捕获和地质封存(CCS)是减少温室气体排放和缓解气候变化的众多解决方案之一。为了提高效率，CCS技术必须大规模部署，目标是储存千亿吨二氧化碳。目前有几种监测技术可以通过跟踪储层中的二氧化碳羽流来确保这些储存操作的安全性，以验证注入的天然气仍然被很好地控制，并且没有从储层泄漏到较浅的地层中。在监测CO 2注入的不同技术中，4D(延时)地震是最准确地确定烟羽时空演变的技术之一(如Sleipner和sn - hvit案例所示)。4D活动地震技术得益于石油和天然气行业的大量专业知识，如果经过可行性研究，它是CCS监测中最常用的技术之一。然而，直接从四维异常中量化注入的二氧化碳体积仍然很困难，其中几个地方存在不确定性，包括:

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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EAGE GeoTech 2022 Sixth EAGE Workshop on CO2 Geological Storage

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