Effects of supercritical CO2 based fluids imbibition on the mechanical properties of shale: An experimental study at high-temperature and high-pressure condition

IF 3.3 2区 工程技术 Q3 ENERGY & FUELS
Qiao Lyu , Jinghong Deng , Jingqiang Tan , Yonggang Ding , Yushuai Shi , Yiwei Liu , Yijun Shen
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引用次数: 0

Abstract

In the process of integrating supercritical CO2 (ScCO2)-enhanced shale gas recovery and geological sequestration, the mechanical properties of shale can be impacted by ScCO2 under high-temperature and high-pressure conditions. This can affect wellbore stability, production efficiency, and the safety of sequestration. To address this issue, this study investigated the interactions between shale and three types of fluids: ScCO2, water, and a combination of ScCO2 and water. Experiments were conducted at high pressure (15 MPa and 45 MPa) and high temperature (100 °C). Changes in shale's mechanical properties before and after immersion were analyzed using uniaxial compression tests and acoustic emission monitoring. The main cation content, microstructure, and element minerals of shale's solution after immersion were also studied. The results show that immersion in ScCO2 and related fluids deteriorates shale's mechanical properties. Immersion in ScCO2 has the least effect on shale strength, followed by the change in shale strength caused by immersion in water, and shale strength is the lowest after immersion in a combination of water and ScCO2. ScCO2 imbibition promotes the occurrence of micro-cracks, while immersion in water makes shale's matrix loose, forming a pore network structure that is most significantly affected by a combination of water and ScCO2. For unsoaked and water-immersed shale samples, the acoustic emission events mainly occur during the unstable crack propagation stage, while the acoustic emission events in shale samples treated with ScCO2 are more dispersed. Compared with previous dynamic pressure immersion experiments, the strength of shale after static pressure immersion increases by 10–30 MPa. This study aims to provide a more comprehensive understanding of the alterations in the mechanical properties of shale when subjected to high temperature and high-pressure immersion conditions. The findings provide valuable data for shale gas extraction and carbon sequestration.

超临界二氧化碳流体浸泡对页岩力学性能的影响:高温高压条件下的实验研究
在整合超临界二氧化碳(ScCO2)强化页岩气采收和地质封存的过程中,ScCO2 在高温高压条件下会影响页岩的机械性能。这会影响井筒稳定性、生产效率和封存安全性。为解决这一问题,本研究调查了页岩与三种流体之间的相互作用:ScCO2、水以及 ScCO2 和水的组合。实验在高压(15 兆帕和 45 兆帕)和高温(100 °C)条件下进行。使用单轴压缩试验和声发射监测分析了浸泡前后页岩机械性能的变化。此外,还研究了浸泡后页岩溶液中的主要阳离子含量、微观结构和元素矿物。结果表明,在 ScCO2 和相关流体中浸泡会降低页岩的机械性能。在 ScCO2 中浸泡对页岩强度的影响最小,其次是在水中浸泡引起的页岩强度变化,而在水和 ScCO2 混合液中浸泡后页岩强度最低。ScCO2 的浸泡会促进微裂缝的出现,而浸泡在水中会使页岩的基质变得疏松,形成孔隙网络结构,这种结构受水和 ScCO2 混合浸泡的影响最大。对于未浸泡和浸水的页岩样品,声发射事件主要发生在不稳定的裂纹扩展阶段,而用 ScCO2 处理过的页岩样品的声发射事件则更为分散。与之前的动压浸泡实验相比,静压浸泡后页岩的强度提高了 10-30 兆帕。本研究旨在更全面地了解页岩在高温高压浸泡条件下的力学性能变化。研究结果为页岩气开采和碳封存提供了宝贵的数据。
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来源期刊
Geomechanics for Energy and the Environment
Geomechanics for Energy and the Environment Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology
CiteScore
5.90
自引率
11.80%
发文量
87
期刊介绍: The aim of the Journal is to publish research results of the highest quality and of lasting importance on the subject of geomechanics, with the focus on applications to geological energy production and storage, and the interaction of soils and rocks with the natural and engineered environment. Special attention is given to concepts and developments of new energy geotechnologies that comprise intrinsic mechanisms protecting the environment against a potential engineering induced damage, hence warranting sustainable usage of energy resources. The scope of the journal is broad, including fundamental concepts in geomechanics and mechanics of porous media, the experiments and analysis of novel phenomena and applications. Of special interest are issues resulting from coupling of particular physics, chemistry and biology of external forcings, as well as of pore fluid/gas and minerals to the solid mechanics of the medium skeleton and pore fluid mechanics. The multi-scale and inter-scale interactions between the phenomena and the behavior representations are also of particular interest. Contributions to general theoretical approach to these issues, but of potential reference to geomechanics in its context of energy and the environment are also most welcome.
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