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主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
二氧化碳驱替煤层气技术发展现状分析
  • Title

    Research status analysis of CO2-enhanced coalbed methane technology

  • 作者

    车永芳

  • Author

    CHE Yongfang

  • 单位

    煤炭科学技术研究院有限公司国家煤炭质量检验检测中心

  • Organization
    China Coal Research Institute Corporation Ltd.
    National Coal Quality Inspection and Testing Center
  • 摘要
    在“双碳”背景下,CO2驱煤层气(CO2-ECBM)工业化应用是促进煤炭清洁高效利用和CO2利用的重要途径之一,CO2驱煤层气技术既可实现CO2的地下封存利用又能提高煤层气采收率。与发达国家相比,我国的CO2驱煤层气技术研发工作发展较慢,因而需从机制机理、现场实验方面阐述CO2驱煤层气技术研究进展。首先从实验室模拟试验介绍煤吸附CO2之后的体积膨胀、渗透率和力学性质的影响研究,然后从世界各地的现场试验介绍CO2驱煤层气技术的发展历程和研究进展。低渗透煤层的注入性是制约该技术可行性的关键因素,因而低渗透煤层增渗技术的突破是中国驱替煤层气技术推广应用的前提。由于现有监测技术还不能完全满足驱替过程优化调控及安全性监测的需要,在CO2驱煤层气技术的发展实施过程中需考虑气源、工艺、腐蚀、安全及投资等问题。针对驱替煤层气技术在工业应用中存在成本较高、市场激励机制不足等问题,需从国家和地方层面进一步完善煤层气开发利用政策,推进驱替煤层气技术健康发展。
  • Abstract
    In the context of “ dual carbon ”goals, the industrial application of CO - enhanced coalbedmethane (CO-ECBM) is one of the important ways to promote the clean and efficient utilization of coal and the utili⁃zation of CO. The CO-ECBM technology can achieve both underground CO storage and increased coalbed methanerecovery rates. Compared with developed countries, the research and development of CO-ECBM technology in Chi⁃na has been relatively slow. Therefore, it is necessary to elaborate on the research progress of CO-ECBM technologyfrom the perspectives of mechanism and site experiments. First, laboratory simulation experiments will be intro⁃duced to study the effects of CO adsorption by coal on volume expansion, permeability and mechanical properties.Then, the development history and research progress of CO-ECBM technology will be discussed based on field ex⁃periments from around the world. The injectivity of low-permeability coal seams is a key factor limiting the feasibilityof this technology, making breakthroughs in enhancing injectivity in low - permeability coal seams a prerequisitefor the promotion and application of coalbed methane displacement technology in China. Since existing monito⁃ring technologies cannot fully meet the needs for optimizing control of the displacement process and safety monitoring,issues such as gas sources, processes, corrosion, safety, and investment must be considered during the developmentand implementation of CO -ECBM technology. To address the high costs and insufficient market incentive mecha⁃nisms associated with the industrial application of coalbed methane displacement technology, it is essential to furtherimprove policies for the development and utilization of coalbed methane at both national and local levels, thereby pro⁃moting the healthy development of CO-ECBM technology.
  • 关键词

    二氧化碳驱替煤层气技术渗透率模拟实验现场试验体积膨胀力学性质激励机制

  • KeyWords

    Carbon dioxide;Coalbed methane displacement technology;Permeability;Simulation experiments;Field experiments;Volume expansion;Mechanical properties;Incentive mechanisms

  • DOI
  • 引用格式
    车永芳.二氧化碳驱替煤层气技术发展现状分析[J].煤质技术,2024,39(5):67-73.
  • Citation
    CHE Yongfang.Research status analysis of CO2-enhanced coalbed methane technology[J].Coal Quality Technology,2024, 39 (5): 67-73.
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主办单位:煤炭科学研究总院有限公司 中国煤炭学会学术期刊工作委员会

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