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Volume 41 Issue 10
Oct.  2023
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Article Contents
ZHANG Haibin, LU Di, WANG Yongchang, TIAN Wenshuang, SONG Xuehang, SUN Nannan. DEVELOPMENT AND PROSPECT OF CO2 LEAKAGE MONITORING DURING OFFSHORE GEOLOGICAL STORAGE[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(10): 61-68. doi: 10.13205/j.hjgc.202310009
Citation: ZHANG Haibin, LU Di, WANG Yongchang, TIAN Wenshuang, SONG Xuehang, SUN Nannan. DEVELOPMENT AND PROSPECT OF CO2 LEAKAGE MONITORING DURING OFFSHORE GEOLOGICAL STORAGE[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(10): 61-68. doi: 10.13205/j.hjgc.202310009

DEVELOPMENT AND PROSPECT OF CO2 LEAKAGE MONITORING DURING OFFSHORE GEOLOGICAL STORAGE

doi: 10.13205/j.hjgc.202310009
  • Received Date: 2023-07-26
    Available Online: 2023-12-26
  • Offshore geological storage can realize the long-term isolation of a large amount of carbon dioxide from the atmosphere, which is crucial for realizing carbon neutrality, especially in the coastal industrial developed areas. Although the possibility of leakage is extremely small, monitoring CO2 leakage from marine geological storage is still necessary and important for the evaluation and application of this artificial carbon sink. Well-known simulated leak experiments include QICS, ETI-MMV, and STEM-CCS, which validate a series of technical approaches, while the related research is in the initial stage in China. According to the typical application scenarios of offshore geological CO2 storage, the development status of leakage monitoring technology is outlined, and the leakage monitoring strategy is proposed including:establishing a solid marine environmental baseline, carrying out a risk assessment, and developing a marine monitoring plan for a specific location. According to the study, CO2 leakage monitoring during offshore geological storage needs to develop multi-level monitoring technology for long-term, low-cost, real-time monitoring and accurate evaluation. We should establish and improve a systematic, intelligent monitoring, early warning, and disposal system based on a clear mechanism of leakage risk points, combined with the baseline investigation of the marine environment.
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  • [1]
    WINTHAEGEN P, ARTS R, SCHROOT B.Monitoring subsurface CO2 storage[J].Oil & Gas Science and Technology, 2005, 60(3):573-582.
    [2]
    FREIFELD B M, DALEY T M, HOVORKA S D, et al.Recent advances in well-based monitoring of CO2 sequestration[C]//Proceeding of the 9th International Conference on Greenhouse Gas Control Technologies.Washington, D.C:GCCC Digital Publication Series, 2008.
    [3]
    DOUGHTY C, FREIFELD B M, TRAUTZ R C.Site characterization for CO2 geologic storage and vice versa:the Frio brine pilot, Texas, USA as a case study[J].Environmental Geology, 2008, 54(8):1635-1656.
    [4]
    GIESE R, HENNINGES J, LÜTH S, et al.Monitoring at the CO2 sink site:a concept integrating geophysics, geochemistry and microbiology[J].Energy Procedia, 2009, 1(1):2251-2259.
    [5]
    FABRIOL H, BECQUEY M, HUGUET F, et al.Results of investigations to design a monitoring program for a CO2 storage project in the Paris Basin (France)[J].Energy Procedia, 2009, 1(1):2285-2291.
    [6]
    SATO K, MITO S, HORIE T, et al.Monitoring and simulation studies for assessing macro-and meso-scale migration of CO2 sequestered in an onshore aquifer:experiences from the Nagaoka pilot site, Japan[J].International Journal of Greenhouse Gas Control, 2011, 5(1):125-137.
    [7]
    SHARMA S, COOK P, JENKINS C, et al.The CO2CRC Otway Project:leveraging experience and exploiting new opportunities at Australia's first CCS project site[J].Energy Procedia, 2011, 4:5447-5454.
    [8]
    UNDERSCHULTZ J, BOREHAM C, DANCE T, et al.CO2 storage in a depleted gas field:an overview of the CO2CRC Otway Project and initial results[J].International Journal of Greenhouse Gas Control, 2011, 5(4):922-932.
    [9]
    KIEKE D, IMBUS S, COHEN K, et al.The CO2 capture project phase 2(CCP2) storage program:progress in geological assurance in unmineable coal beds[J].Energy Procedia, 2009, 1(1):79-86.
    [10]
    NAKATSUKA Y, XUE Z Q, YAMADA Y, et al.Experimental study on monitoring and quantifying of injected CO2 from resistivity measurement in saline aquifer storage[J].Energy Procedia, 2009, 1(1):2211-2218.
    [11]
    STRAZISAR B R, WELLS A W, DIEHL J R, et al.Near surface monitoring for the ZERT shallow CO2 injection project[J].International Journal of Greenhouse Gas Control, 2009, 3(6):736-744.
    [12]
    BATESON L, VELLICO M, BEAUBIEN S E, et al.The application of remote-sensing techniques to monitor CO2-storage sites for surface leakage:Method development and testing at Latera (Italy) where naturally produced CO2 is leaking to the atmosphere[J].International Journal of Greenhouse Gas Control, 2008, 2(3):388-400.
    [13]
    CHARPENTIER F, BUREAU B, TROLES J, et al.Infrared monitoring of underground CO2 storage using chalcogenide glass fibers[J].Optical Materials, 2009, 31(3):496-500.
    [14]
    MADSEN R, XU L K, CLAASSEN B, et al.Surface monitoring method for carbon capture and storage projects[J].Energy Procedia, 2009, 1(1):2161-2168.
    [15]
    BERNARDO C, DEVRIES D F.Permanent shallow subsoil CO2 flux chambers for monitoring of on shore CO2 geological storage sites[J].International Journal of Greenhouse Gas Control, 2011, 5(3):565-570.
    [16]
    PREVEDEL B, WOHLGEMUTH L, LEGARTH B, et al.The CO2 sink boreholes for geological CO2-storage testing[J].Energy Procedia, 2009, 1(1):2087-2094.
    [17]
    张森琦, 刁玉杰, 陈旭学, 等.二氧化碳地质存储逃逸通道及环境监测研究[J].冰川冻土, 2010, 32(6):1251-1261.
    [18]
    董华松, 黄文辉.CO2捕捉与地质封存及泄漏监测技术现状与进展[J].资源与产业, 2010, 12(2):123-128.
    [19]
    张琪, 崔永君, 步学朋, 等.CCS监测技术发展现状分析[J].神华科技, 2011, 9(2):77-82.
    [20]
    戴靠山, 陈亘, 宋学行, 等.二氧化碳地质封存工程安全研究现状及地脉动法监测可行性初步分析[J].结构工程师, 2012, 28(5):159-169.
    [21]
    王小林.二氧化碳海底封存与国际海洋环境保护法[J].学术论坛, 2010, 33(11):152-156

    , 2, 5.
    [22]
    CO2 Storage Resource Catalogue[R/OL].https://co2storageresourcecatalogue.com/compare/?default=sites.2023-9-16.
    [23]
    许晓, 李琦, 谭永胜, 等.日本苫小牧CO2海底地质封存监测技术分析及其启示[J].高校地质学报, 2023, 29(1):13-24.
    [24]
    Petrobras, Sustainability Report 2022[R/OL].https://sustentabilidade.petrobras.com.br/.2023-9-16.
    [25]
    China's first offshore carbon capture and storage project started up by CNOOC Ltd[R/OL].https://www.upstreamonline.com/energy-transition/china-s-first-offshore-carbon-capture-and-storage-project-started-up-by-cnooc-ltd/2-1-1459558.[2023-9-16].
    [26]
    吴林强, 张涛, 睢雨璋, 等.海域二氧化碳地质封存发展的国际经验与启示[J].中国国土资源经济, 2023, 36(4):59-66

    , 81.
    [27]
    郭建强, 文冬光, 张森琦, 等.中国二氧化碳地质储存潜力评价与示范工程[J].中国地质调查, 2015, 2(4):36-46.
    [28]
    张立, 刘瑶.二氧化碳减排地质工作大有可为[N].中国矿业报, 2015-07-15(03).
    [29]
    Offshore Characterization Field Projects[R/OL].https://netl.doe.gov/carbon-management/carbon-storage/offshore, 2023-08-10.
    [30]
    NEERAJ GUPTA.Mid-Atlantic U.S.offshore carbon storage resource assessment[R/OL].[2022-08-10].https://netl.doe.gov/sites/default/files/netlfile/N-Gupta-Mid-Atlantic-U.S.-Offshore.pdf.
    [31]
    蔡博峰, 李琦, 林千果, 等.中国二氧化碳捕集、利用与封存(CCUS)报告[R].生态环境部环境规划院气候变化与资源政策研究中心, 2020.
    [32]
    卓成刚, 刘秀慧.CO2海洋封存技术国内外研究进展与启示[J].安全与环境工程, 2017, 24(5):84-89.
    [33]
    LI J, ROCHE B, BULL J M, et al.Passive acoustic monitoring of a natural CO2 seep site-Implications for carbon capture and storage[J].International Journal of Greenhouse Gas Control, 2020, 93:102899.
    [34]
    KAWANISIA K, RAZAZA M, KANEKOB A, et al.Long-term measurement of stream flow and salinity in a tidal river by the use of the fluvial acoustic tomography system[J].Journal of Hydrology, 2010, 380(1):74-81.
    [35]
    CARAMANNA G, FIETZEK P, MAROTO-VALER M.Monitoring techniques of a natural analogue for sub-seabed CO2 leakages[J].Energy Procedia, 2011, 4(1):3262-3268.
    [36]
    PAYÁN M C, VERBINNEN B, GALAN B, et al.Potential influence of CO2 release from a carbon capture storage site on release of trace metals from marine sediment[J].Environmental Pollution, 2012, 162:29-39.
    [37]
    KIM H, KIM Y, KANG S G, et al.Development of environmental impact monitoring protocol for offshore carbon capture and storage (CCS):a biological perspective[J].Environmental Impact Assessment Review, 2016, 57:139-150.
    [38]
    SHITASHIMA K, MAEDA Y, OHSUMI T.Development of detection and monitoring techniques of CO2 leakage from seafloor in sub-seabed CO2 storage[J].Applied Geochemistry, 2013, 30:114-24.
    [39]
    耿建华, 董良国, 马在田.海底节点长期地震观测:油气田开发与CO2地质封存过程监测[J].地球科学进展, 2011, 26(6):669-677.
    [40]
    CCS Europe.Pan-European coordination action on CO2 Geological Storage[EB/OL].2021-08-10.http://cgseurope.net.
    [41]
    DEAN M, BLACKFORD J, CONNELLY D, et al.Insights and guidance for offshore CO2 storage monitoring based on the QICS, ETI MMV, and STEMM-CCS projects[J].International Journal of Greenhouse Gas Control, 2020, 100:103-120.
    [42]
    FLOHR A, SCHAAP A, ACHTERBERG E P, et al.Towards improved monitoring of offshore carbon storage:a real-world field experiment detecting a controlled sub-seafloor CO2 release[J].International Journal of Greenhouse Gas Control, 2021, 106:103237.
    [43]
    DEWAR M, SELLAMI N, CHEN B.Dynamics of rising CO2 bubble plumes in the QICS field experiment:Part 2-Modelling[J].International Journal of Greenhouse Gas Control, 2015, 38:52-63.
    [44]
    DEAN M, TUCKER O.A risk-based framework for measurement, monitoring and verification (MMV) of the Goldeneye storage complex for the Peterhead CCS project, UK[J].International Journal of Greenhouse Gas Control, 2017, 61:1-15.
    [45]
    JENKINS C, CHADWICK A, HOVORKA S D.The state of the art in monitoring and verification ten years on[J].International Journal of Greenhouse Gas Control, 2015, 40:312-349.
    [46]
    郝艳军, 杨顶辉.二氧化碳地质封存问题和地震监测研究进展[J].地球物理学进展.2012, 27(6):2369-2383.
    [47]
    SONG X, GUO Y, ZHANG J, et al.Fracturing with carbon dioxide:from microscopic mechanism to reservoir application[J].Joule, 2019, 3(8):1913-1926.
    [48]
    VAZQUEZ A, MANASSEH R, CHICHARRO R.Can acoustic emissions be used to size bubbles seeping from a sediment bed?[J].Chemical Engineering Science, 2015, 131:187-196.
    [49]
    DEAN M, BLACKFORD J, CONNELLY D, et al.Insights and guidance for offshore CO2 storage monitoring based on the QICS, ETI MMV, and STEMM-CCS projects[J].International Journal of Greenhouse Gas Control, 2020, 100, 103120.
    [50]
    YAMMAOTO K, KITAMURA O, ITAOKA K, et al.A risk analysis scheme of the CO2 leakage from geologic sequestration[J].Greenhouse Gas Control Technologies, 2005, 2.
    [51]
    SU X, LIU S, ZHANG L, et al.Wellbore leakage risk management in CO2 geological utilization and storage:a review[J].Energy Reviews, 2023, 100049.
    [52]
    BLACKFORD J, BULL J M, CEVATOGLU M, et al.Marine baseline and monitoring strategies for carbon dioxide capture and storage (CCS)[J].International Journal of Greenhouse Gas Control, 2014, 38:221-229.
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