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Volume 41 Issue 10
Oct.  2023
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Article Contents
WANG Zhanpeng, LIU Qi, YE Hang, ZHANG Min, LIU Shuangxing, WENG Yibin. RESEARCH PROGRESS ON CO2 GEOLOGICAL STORAGE LEAKAGE AND MONITORING[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(10): 69-81. doi: 10.13205/j.hjgc.202310010
Citation: WANG Zhanpeng, LIU Qi, YE Hang, ZHANG Min, LIU Shuangxing, WENG Yibin. RESEARCH PROGRESS ON CO2 GEOLOGICAL STORAGE LEAKAGE AND MONITORING[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(10): 69-81. doi: 10.13205/j.hjgc.202310010

RESEARCH PROGRESS ON CO2 GEOLOGICAL STORAGE LEAKAGE AND MONITORING

doi: 10.13205/j.hjgc.202310010
  • Received Date: 2023-07-21
    Available Online: 2023-12-26
  • CO2 leakage is the main factor threatening the long-term safe operation of CCUS geological storage projects, and an effective safety monitoring system is the basis of project risk management and decision-making. CO2 mainly escapes through three pathways:wellbore, cap rock, fault, or fracture. As different pathways pose different leakage characteristics, different monitoring methods are required. Based on the principles, advantages, disadvantages, and development trends, three main monitoring methods, i.e. CO2 environment monitoring, safety monitoring, and migration monitoring were summarized, covering the following monitoring technologies, such as atmosphere, near surface, shallow formation, surface deformation, geological deformation, ground stress, well integrity, wellbore corrosion, and underground CO2 migration. The development of monitoring technologies for typical projects, at home and abroad was summarized, which can provide reference for future carbon sequestration engineering projects in China. It is difficult for a single monitoring technology to meet total engineering needs. High-precision in-situ online environmental monitoring, integrated with intelligent safety monitoring, and long-term continuous dynamic migration monitoring is expected to become future research's focus. It is suggested to build a monitoring system integrating spatial horizon and safe migration, based on high precision, low cost, and real-time monitoring.
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