Robust CO2 plume imaging by joint tomographic inversion using distributed pressure and temperature measurements

IF 4.6 3区 工程技术 Q2 ENERGY & FUELS International Journal of Greenhouse Gas Control Pub Date : 2024-06-01 DOI:10.1016/j.ijggc.2024.104166
Changqing Yao , Hongquan Chen , Tsubasa Onishi , Akhil Datta-Gupta , Srikanta Mishra , Sanjay Mawalkar , Ashwin Pasumarti
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Abstract

The scientific community has become increasingly interested in geological CO2 sequestration and CO2 enhanced oil recovery (EOR). The tracking of the CO2 propagation in both space and time during geologic sequestration is necessary to ensure the secure and effective handling of a site for CO2 injection. Our objective is to develop efficient and novel models and monitoring techniques for visualizing CO2 plumes using field measurements. As a first step, the streamline-based data integration approach is extended to include data from distributed temperature sensors (DTS). The DTS and pressure data are then jointly history matched using a hierarchical workflow combining evolutionary and streamline methods. As a final step, we will create maps that visualize CO2 propagation during the sequestration process based on saturation and streamline maps. We validate the extended streamline-based inversion method using a synthetic model. An application of the hierarchical workflow is then made to the CO2 geologic storage test site in Michigan, USA. Monitoring data includes bottom-hole pressure of the injection well, DTS data at the monitoring well, and distributed pressure measurements from several downhole sensors along the monitoring well. Based on the history matching results, the CO2 movement is largely limited to the zones intended for injection, which is in agreement with an independent warmback analysis of the temperature data. The novelty of this work is the extension of the streamline-based inversion algorithm for the DTS data, its field application to the Department of Energy regional carbon sequestration project, and potential extensions to other CO2-EOR and/or associated geological storage projects.

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利用分布式压力和温度测量联合层析反演进行稳健的二氧化碳羽流成像
科学界对二氧化碳地质封存和二氧化碳提高石油采收率(EOR)的兴趣与日俱增。在地质封存过程中,有必要对二氧化碳在空间和时间上的传播进行跟踪,以确保安全有效地处理二氧化碳注入地点。我们的目标是开发高效、新颖的模型和监测技术,以便利用现场测量结果实现二氧化碳羽流的可视化。首先,我们将基于流线的数据集成方法扩展到分布式温度传感器(DTS)的数据。然后,利用进化和流线方法相结合的分层工作流程,共同对 DTS 和压力数据进行历史匹配。最后,我们将根据饱和度和流线图绘制地图,直观显示二氧化碳在封存过程中的传播情况。我们将使用合成模型验证基于流线的扩展反演方法。然后将分层工作流程应用于美国密歇根州的二氧化碳地质封存试验场。监测数据包括注入井的井底压力、监测井的 DTS 数据以及来自监测井沿线多个井下传感器的分布式压力测量值。根据历史匹配结果,二氧化碳的移动主要局限于预定注入区,这与对温度数据的独立回温分析结果一致。这项工作的创新之处在于将基于流线的反演算法扩展到 DTS 数据,并将其实地应用于能源部的区域碳封存项目,还可能扩展到其他 CO2-EOR 和/或相关地质封存项目。
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来源期刊
CiteScore
9.20
自引率
10.30%
发文量
199
审稿时长
4.8 months
期刊介绍: The International Journal of Greenhouse Gas Control is a peer reviewed journal focusing on scientific and engineering developments in greenhouse gas control through capture and storage at large stationary emitters in the power sector and in other major resource, manufacturing and production industries. The Journal covers all greenhouse gas emissions within the power and industrial sectors, and comprises both technical and non-technical related literature in one volume. Original research, review and comments papers are included.
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