国内外CO<sub>2</sub>地质封存潜力评价方法研究现状

doi:10.19388/j.zgdzdc.2021.04.11

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Abstract Carbon Capture and Storage (CCS) technology is one of the effective ways to offset global warming and reduce CO₂ emissions, and its potential assessment is crucial. The CCS technology mainly includes three types: CO₂ Enhanced Oil/Gas Recovery (EOR/EGR), CO₂ Enhanced Coal Bed Methane (ECBM) and CO₂ storage in saline aquifer. The potential assessment methods are slightly different due to the different sequestration mechanisms of different sequestration technologies. The structural space storage, confined space storage, dissolution storage, and mineralization storage sealing mechanisms are mainly used in oil and gas reservoir storage and saltwater reservoir storage, while the adsorption sealing mechanism is mainly used in coal seam storage. The corresponding calculation methods for various storage technologies were put forward by researchers and institutions, and these methods can be classified into four categories according to their calculation principles, which are material balance method, effective volume method, dissolution method, and mixed mechanism method considering various capture mechanisms. In this paper, the authors have analyzed connotation principles and application scenarios of storage potential evaluation methods and put forward the practical problems of CO₂ geological storage potential evaluation, which could improve the quality of CCS potential assessment in our country.

Key words： CO₂ geological storage mainstream technology storage mechanism potential evaluation method

Received: 12 July 2021

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	Articles by authors
	LIU Ting
	MA Xin
	DIAO Yujie
	JIN Xiaolin
	FU Jie
	ZHANG Chenglong

Cite this article:

LIU Ting,MA Xin,DIAO Yujie, et al. Research status of CO₂ geological storage potential evaluation methods at home and abroad[J]. , 2021, 8(4): 101-108.

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http://journal25.magtechjournal.com/Jwk_dzdc/EN/10.19388/j.zgdzdc.2021.04.11 OR http://journal25.magtechjournal.com/Jwk_dzdc/EN/Y2021/V8/I4/101

[1] Intergovernmental Panel on Climate Change.Climate Change 2014:Synthesis Report.Contribution of Working Groups I,II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change[R].Geneva,Switzerland:IPCC,2014:151.
[2] Yang F,Bai B J,Tang D Z,et al.Characteristics of CO₂ sequestration in saline aquifers[J].Petrol Sci,2010,7(1):83-92.
[3] Celia M A,Nordbotten J M.Practical modeling approaches for geo-logical storage of carbon dioxide[J].Groundwater,2009,47(5):627-638.
[4] van der Zwaan B,Smekens K.CO₂ capture and storage with lea-kage in an energy-climate model[J].Environ Model Assess,2009,14(2):135-148.
[5] 沈平平,廖新维,刘庆杰.二氧化碳在油藏中埋存量计算方法[J].石油勘探与开发,2009,36(2):216-220.
Shen P P,Liao X W,Liu Q J.Methodology for estimation of CO₂ storage capacity in reservoirs[J].Petrol Explor Dev,2009,36(2):216-220.
[6] Diao Y J,Zhu G W,Cao H,et al.Mesoscale assessment of CO₂ storage potential and geological suitability for target area selection in the Sichuan Basin[J].Geofluids,2017,2017:9587872.
[7] Leung D Y C,Caramanna G,Maroto-Valer M M.An overview of current status of carbon dioxide capture and storage technolo-gies[J].Renew Sustain Energy Rev,2014,39:426-443.
[8] 杨红,赵习森,康宇龙,等.鄂尔多斯盆地CO₂地质封存适宜性与潜力评价[J].气候变化研究进展,2019,15(1):95-102.
Yang H,Zhao X S,Kang Y L,et al.Evaluation on geological sequestration suitability and potential of CO₂ in Ordos Basin[J].Climate Change Res,2019,15(1):95-102.
[9] 张冰,梁凯强,王维波,等.鄂尔多斯盆地深部咸水层CO₂有效地质封存潜力评价[J].非常规油气,2019,6(3):15-20.
Zhang B,Liang K Q,Wang W B,et al.Evaluation of effective CO₂ geological sequestration potential of deep saline aquifer in Ordos Basin[J].Unconvent Oil Gas,2019,6(3):15-20.
[10] 何佳林,师庆三,董海海,等.新疆准东油田各区块CO₂地质封存潜力评估[J].新疆大学学报:自然科学版,2018,35(4):528-531.
He J L,Shi Q S,Dong H H,et al.Evaluation of CO₂ geological sequestration potential in each block of Xinjiang Jundong Oil-field[J].J Xinjiang Univ:Natl Sci Ed,2018,35(4):528-531.
[11] 项力,杨章贤.安徽省沉积盆地咸水含水层二氧化碳地质储存潜力研究[J].安徽地质,2016,26(4):291-293.
Xiang L,Yang Z X.Study on geological storing capacity of CO₂ in brine aquifer in sedimentary basin in Anhui Province[J].Geol Anhui,2016,26(4):291-293.
[12] 霍传林. 我国近海二氧化碳海底封存潜力评估和封存区域研究[D].大连:大连海事大学,2014.
Huo C L.Study on the Potential Evaluation and the Storage Areas of the Carbon Dioxide Seabed Storage in Offshore China[D].Dalian:Dalian Maritime University,2014.
[13] 臧雅琼. 我国含油气盆地CO₂地质封存潜力分析[D].北京:中国地质大学(北京),2013.
Zang Y Q.Analysis of CO₂ Geological Sequestration Potential of Chinese Petroliferous Basins[D].Beijing:China University of Geo-sciences(Beijing),2013.
[14] 汪传胜,田蓉,季峻峰,等.苏北盆地油田封存二氧化碳潜力初探[J].高校地质学报,2012,18(2):225-231.
Wang C S,Tian R,Ji J F,et al.Preliminary estimation of carbon dioxide storage capacity in the oil reservoirs in Subei Basin[J].Geol J China Univ,2012,18(2):225-231.
[15] 孙亮,陈文颖.中国陆上油藏CO₂封存潜力评估[J].中国人口·资源与环境,2012,22(6):76-81.
Sun L,Chen W Y.Assessment of CO₂ geo-storage potential in onshore oil reservoirs,China[J].China Popul,Resour Environ,2012,22(6):76-81.
[16] 任相坤,崔永君,步学朋,等.鄂尔多斯盆地CO₂地质封存潜力分析[J].中国能源,2010,32(1):29-32.
Ren X K,Cui Y J,Bu X P,et al.Analysis on CO₂ storage potentia-lity in Ordos basin[J].Energy China,2010,32(1):29-32.
[17] 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.
Guo J Q,Wen D G,Zhang S Q,et al.Potential evaluation and demonstration project of CO₂ geological storage in China[J].Geol Surv China,2015,2(4):36-46.
[18] Sun L L,Dou H G,Li Z P,et al.Assessment of CO₂ storage potential and carbon capture,utilization and storage prospect in China[J].J Energy Inst,2018,91(6):970-977.
[19] Bachu S.Review of CO₂ storage efficiency in deep saline aqui-fers[J].Int J Greenh Gas Control,2015,40:188-202.
[20] 刁玉杰,朱国维,金晓琳,等.四川盆地理论CO₂地质利用与封存潜力评估[J].地质通报,2017,36(6):1088-1095.
Diao Y J,Zhu G W,Jin X L,et al.Theoretical potential assessment of CO₂ geological utilization and storage in the Sichuan Basin[J].Geol Bull China,2017,36(6):1088-1095.
[21] 中国21世纪议程管理中心.中国二氧化碳利用技术评估报告[M].北京:科学出版社,2014.
The Administrative Center for China’s Agenda 21 Agenda 21.Evaluation Report on Carbon Dioxide Utilization Technology in China[M].Beijing:Science Press,2014.
[22] Holloway S,Savage D.The potential for aquifer disposal of carbon dioxide in the UK[J].Energy Convers Manage,1993,34(9/11):925-932.
[23] 刁玉杰,李旭峰,金晓琳,等.深部咸水层二氧化碳地质储存勘查评价与工程控制技术[M].北京:地质出版社,2019.
Diao Y J,Li X F,Jin X L,et al.Exploration,Evaluation and Engineering Control Technology of Carbon Dioxide Geological Storage in Deep Saltwater[M].Beijing:Geological Publishing House,2019.
[24] Bachu S.Sequestration of CO₂ in geological media:Criteria and approach for site selection in response to climate change[J].Energy Convers Manage,2000,41(9):953-970.
[25] 张美红,吴世跃,李川田.煤系地层注入CO₂开采煤层气质交换的机理[J].煤炭学报,2013,38(7):1196-1200.
Zhang M H,Wu S Y,Li C T.Mass exchange mechanism of coalbed methane exploitation by CO₂ injection in coal measure stra-ta[J].J China Coal Soc,2013,38(7):1196-1200.
[26] Gunter W D,Gentzis T,Rottenfusser B A,et al.Deep coalbed methane in Alberta, Canada:A fuel resource with the potential of zero greenhouse gas emissions[J].Energy Convers Manage,1997,38 Suppl:S217-S222.
[27] Goodman A,Hakala A,Bromhal G,et al.U.S. DOE methodology for the development of geologic storage potential for carbon dioxide at the national and regional scale[J].Int J Greenh Gas Control,2011,5(4):952-965.
[28] Bachu S,Bonijoly D,Bradshaw J,et al.CO₂ storage capacity estimation: Methodology and gaps[J].Int J Greenh Gas Control,2007,1(4):430-443.
[29] Bachu S,Adams J J.Sequestration of CO₂ in geological media in response to climate change:Capacity of deep saline aquifers to sequester CO₂ in solution[J].Energy Convers Manage,2003,44(20):3151-3175.
[30] 张洪涛,文冬光,李义连,等.中国CO₂地质埋存条件分析及有关建议[J].地质通报,2005,24(12):1107-1110.
Zhang H T,Wen D G,Li Y L,et al.Conditions for CO₂ geological sequestration in China and some suggestions[J].Geol Bull China,2005,24(12):1107-1110.
[31] Carbon Sequestration Leadership Forum.Phase II Final Report from the Task Force for Review and Identification of Standards for CO₂ Storage Capacity Estimation[R].2007.
[32] Department of Energy.Carbon Sequestration Atlas of the United States and Canada:Appendix A - Methodology for Development of Carbon Sequestration Capacity Estimates[R].2006.
[33] van der Meer L G H,Yavuz F.CO₂ storage capacity calculations for the Dutch subsurface[J].Energy Procedia,2009,1(1):2615-2622.
[34] Bradshaw J,Bachu S,Bonijoly D,et al.CO₂ storage capacity estimation:Issues and development of standards[J].Int J Greenh Gas Control,2007,1(1):62-68.
[35] Obi E O I,Blunt M J.Streamline-based simulation of carbon dioxide storage in a North Sea aquifer[J].Water Resour Res,2006,42(3):W03414.
[36] Bachu S,Shaw J C,Pearson R M.Estimation of Oil Recovery and CO₂ Storage Capacity in CO₂ EOR Incorporating the Effect of Underlying Aquifers[C]:SPE/DOE Symposium on Improved Oil Recovery.Tulsa,Oklahoma:ASPE,2004.
[37] Carbon Sequestration Ledership Forum.Carbon Capture,Utilisation and Storage (CCUS) and Energy Intensive Industries (EIIs):From Energy/Emission Intensive Industries to Low Carbon Industries[R].2019.
[38] IEA GHG (International Energy Agency Greenhouse Gas R&D Programme),2009.Development of Storage Coefficients for CO2 storage in deep saline formations[EB/OL].(2009-11-13).[2021-6-25].http://www.ieaghg.org/.
[39] Goodman A,Bromhal G,Strazisar B,et al.Comparison of methods for geologic storage of carbon dioxide in saline formations[J].Int J Greenh Gas Control,2013,18:329-342.