Research on Coal Reservoir Pore Structures: Progress, Current Status, and Advancing

IF 4.8 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Kai Wang, Lin Guo, Chao Xu, Wenjing Wang, Tong Yang, Yuanyuan Hu, Yongwang Yuan
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Abstract

Coalbed methane (CBM) storage and transport are facilitated by an intricate multi-scale pore structure. It is of great significance to study the characteristics of the pore structure and its role in CBM storage and transport in order to enhance CBM extraction, prevent CBM disasters, and improve the efficiency of CO2 geological storage. Here, we review the current progress in coal reservoir pore structure research worldwide based on 8199 published papers on "coal pore structure" identified from the Web of Science Core Collection database. Using a bibliometric method with high-frequency core keywords as important database quantitative indices, five clusters with high-frequency keywords were selected as the core content to provide a comprehensive review of the progress of research on the pore structure of the coal body. The findings indicate that, with global attention focused on the storage of greenhouse gases, such as CO2, and clean energy extraction of CBM, research on pore structure of coal rock reservoirs has increased rapidly since 2010, with studies from China, the USA, Australia, Poland, and Japan the most abundant. With the development of testing technology, research on the basic parameters of coal pore structure, the intrinsic mechanism of pore formation, and the factors influencing the evolution of pore structure has evolved from the macroscopic to the micromolecular level, and from qualitative descriptions to quantitative or semi-quantitative characterization. From keyword analysis, it is evident that the control mechanisms of pore structures with regard to adsorption–desorption–diffusion–seepage of CBM in coal reservoirs have received considerable attention. The development of technologies such as molecular simulation provides important technological support for analyzing the intrinsic mechanisms competitive CO2, CH4, and N2 adsorption in coal–rock reservoirs at the molecular level. The development of molecular dynamics simulations and digital imaging technology will provide crucial support for the quantitative in situ characterization of pore structures and other physical parameters of unconventional reservoirs, such as coal and rock. Moreover, studying the microscopic mechanisms of gas adsorption and fluid flow in porous systems under extreme conditions (e.g., high temperature, high pressure, ultra-microscale) has become a research frontier in this field.

煤储层孔隙结构研究:进展、现状和推进
错综复杂的多尺度孔隙结构促进了煤层气的储运。研究煤层气孔隙结构的特征及其在煤层气储运中的作用,对于提高煤层气抽采能力、预防煤层气灾害、提高二氧化碳地质封存效率具有重要意义。本文基于 Web of Science 核心数据库中已发表的 8199 篇有关 "煤炭孔隙结构 "的论文,综述了当前世界范围内煤储层孔隙结构研究的进展。采用文献计量学方法,以高频核心关键词作为重要的数据库定量指标,选取五个高频关键词群组作为核心内容,对煤体孔隙结构的研究进展进行了全面综述。研究结果表明,随着全球对二氧化碳等温室气体封存和煤层气清洁能源开采的关注,煤岩储层孔隙结构的研究自 2010 年以来迅速增加,其中以中国、美国、澳大利亚、波兰和日本的研究最为丰富。随着测试技术的发展,对煤炭孔隙结构的基本参数、孔隙形成的内在机理、孔隙结构演化的影响因素等方面的研究已从宏观层面发展到微观分子层面,从定性描述发展到定量或半定量表征。从关键词分析可以看出,煤储层中煤层气的吸附-解吸-扩散-渗流的孔隙结构控制机理已受到相当重视。分子模拟等技术的发展,为从分子层面分析煤岩储层中二氧化碳、甲烷和二氧化氮吸附竞争的内在机理提供了重要的技术支持。分子动力学模拟和数字成像技术的发展将为原位定量描述煤炭和岩石等非常规储层的孔隙结构和其他物理参数提供重要支持。此外,研究极端条件(如高温、高压、超微尺度)下多孔体系中气体吸附和流体流动的微观机理已成为该领域的研究前沿。
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
Natural Resources Research
Natural Resources Research Environmental Science-General Environmental Science
CiteScore
11.90
自引率
11.10%
发文量
151
期刊介绍: This journal publishes quantitative studies of natural (mainly but not limited to mineral) resources exploration, evaluation and exploitation, including environmental and risk-related aspects. Typical articles use geoscientific data or analyses to assess, test, or compare resource-related aspects. NRR covers a wide variety of resources including minerals, coal, hydrocarbon, geothermal, water, and vegetation. Case studies are welcome.
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