地质调查助力碳达峰碳中和目标实现的路径浅析

doi:10.19388/j.zgdzdc.2021.04.01

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摘要 2030年前实现碳达峰,2060年前实现碳中和是2020年我国提出的国家重大战略目标。以当前我国的二氧化碳排放及能源结构现状,要实现这一伟大目标形势十分严峻。介绍了全球碳循环过程,阐述了碳源与碳汇对于大气CO₂浓度的贡献,从减源与增汇2个方面,初步分析了地质调查在推动碳达峰与碳中和目标实现中的作用与可能的贡献,并提出了地质解决路径。生态碳汇固然非常重要,但仍不能完全消除人为CO₂排放,且其具有不确定性,因此,需要充分发挥地质调查作用、挖掘地质碳汇潜力,使其成为实现碳中和目标过程中不可或缺的有力支撑。

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	李采
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	何庆成

关键词 ：碳达峰, 碳中和, 地质调查, 路径

Abstract：China has committed to peak carbon dioxide emissions before 2030 and achieve carbon neutrality before 2060, which is a national grand strategy for China in 2020. However, it is an extremely big challenge to realize these goals considering China’s current huge CO₂ emissions and energy consumption structure. The authors introduced the global carbon cycle and analyzed the contributions of carbon sources and sinks to the atmospheric CO₂ concentration. Besides, the roal and possible contributions of geological survey on promoting carbon emissions peak and carbon neutrality were analyzed from two aspects, which were reducing CO₂ emissions and increasing CO₂ sinks, and the corresponding geological route was also put forward. Although the natural ecological carbon sinks are important, it is still impossible to eliminate all artificial CO₂ emissions, with some indeterminacy. Therefore, geological survey potential and the geological sink potential should be fully exerted to be an indispensable support for realizing the carbon neutrality goal.

Key words： CO₂ emissions peak CO₂ neutrality geological survey roadmap

收稿日期: 2021-07-16

中图分类号:	X14
	P595
	P618.130.2

基金资助:国家自然科学基金“注气温度对含水层压缩空气储能效率的影响研究(编号: 42002255)”、中国地质调查局“环武功山地区地热(干热岩)资源调查评价、典型地区地下空间资源调查评价(编号: DD20201165,DD202314)”和湖南省地质院科研项目“湖南省深部地质空间利用可行性研究——湘衡盐矿盐腔能源储存与废物处置适宜性评价(编号: HNGSTP202101)”联合资助

通讯作者: 何庆成(1962—),男,教授级高级工程师,主要从事水文地质、工程地质和环境地质研究。Email: 479400160@qq.com。

作者简介: 李采(1979—),女,高级工程师,主要从事二氧化碳地质封存与利用方面的研究。Email: licai@cags.ac.cn。

引用本文:

李采, 郭朝斌, 李霞, 杨利超, 任舫, 何庆成. 地质调查助力碳达峰碳中和目标实现的路径浅析[J]. 中国地质调查, 2021, 8(4): 1-12.
LI Cai, GUO Chaobin, LI Xia, YANG Lichao, REN Fang, HE Qingcheng. Analysis of the role of geological survey on the roadmap design for realizing the goal of carbon emissions peak and carbon neutrality. , 2021, 8(4): 1-12.

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[1] 习近平.在第七十五届联合国大会一般性辩论上的讲话[EB/OL].新华网,(2020-09-22).http://www.xinhua.com/politics/leaders/2020-09/22/c_1126527652.htm
Xi J P.The statement at the general debate of the 75th United Nationas General Assembly[EB/OL].(2020-09-22).http://www.xinhua.com/politics/leaders/2020.09/22/c_1126527652.htm.
[2] Ritchie H,Roser M.CO₂ and Greenhouse Gas Emissions[EB/OL].OurWorldInData.Org,(2020-08).https://ourworldindata.org/CO₂-and-other-greenhouse-gas-emissions.
[3] 中金研究院.碳中和经济学:新约束下的宏观与行业分析[R].中金研究院,2021.
China International Capital Corporation.Carbon Neutrality Economics:Macro and Industry Analysis under New Constraints[R].China International Capital Corporation,2021.
[4] 刘强,陈怡,陈济,等.新常态下我国碳排放达峰形势分析[R].2021.
Liu Q,Chen Y,Chen J,et al.Analysis of China’s Carbon Emission Peaking Situation under the New Status[R].2021.
[5] 全球能源互联网发展合作组织.中国2030年前碳达峰研究报告[R].北京:全球能源互联网发展合作组织,2021.
Global Energy Interconnection Development and Cooperation Organization.Report on China’s Carbon Peak before 2030[R].Beijing:Global Energy Interconnection Development and Cooperation Organization,2021.
[6] 中国数字科技馆.为什么要强调“碳达峰”与“碳中和”?一文读懂其中缘由[EB/OL].(2021-04-14).https://www.cdstm.cn/gallery/zhuanti/ptzt/202104/t20210414_1045962.html.
China Digital Science and Technology Museum.Why should we emphasize “carbon peak” and “carbon neutrality”? This article will explain the reason[EB/OL].(2021-04-14).https://www.cdstm.cn/gallery/zhuanti/ptzt/202104/t20210414_1045962.html.
[7] 杨富强,陈怡心.“十四五”推动能源转型实现碳排放达峰[J].阅江学刊,2021,doi:10.13878/j.cnki.yjxk.20210708.001.
Yang F Q,Chen Y X.Promotion of energy transformation to achieve peak CO₂ emissions in the 14th Five Year Plan[J].Yuejiang Acad J,2021,doi:10.13878/j.cnki.yjxk.20210708.001.
[8] BSI.PAS 2060:2014 Specification for the Demonstration of Carbon Neutrality[S].Britain:BSI,2014.
[9] USDN.Carbon Neutral Cities Alliance[Z].2019.
[10] BP.Statistical Review of World Energy[R].2021.
[11] 国家统计局. 2020年能源消费总量49.8亿吨标准煤[EB/OL].(2021-02-28).https://finance.sina.com.cn/roll/2021-02-28/doc-ikftpnnz0215739.shtml.
National Bureau of Statistics.The total energy consumption in 2020[EB/OL].(2021-02-28).https://finance.sina.com.cn/roll/2021-02-28/doc-ikftpnnz0215739.shtml.
[12] 王克,刘芳名,尹明健,等.1.5 ℃温升目标下中国碳排放路径研究[J].气候变化研究进展,2021,17(1):7-17.
Wang K,Liu F M,Yin M J,et al.Research on China’s carbon emissions pathway under the 1.5 ℃ target[J].Climate Change Res,2021,17(1):7-17.
[13] Oberle B.Carbon Relations,the Role in Plant Diversification of[M]//Kliman R M.Encyclopedia of Evolutionary Biology.Pittsburgh:Academic Press,2016:260-266.
[14] Hartmann D L,Tank A M G K,Rusticucci M,et al.Observations:Atmosphere and Surface[M]//IPCC.Climate Change 2013 the Physical Science Basis:Working Group I Contribution to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change.Cambridge:Cambridge University Press,2015.
[15] Sabine S L,Heiman M,Artaxo P,et al.Current Status and Past Trends of the Global Carbon Eycle[M]//Field C,Raupach M.The Global Carbon Cycle:Integrating Humans Climate and the Natural World.Washington:Island Press,2004.
[16] Beringer J.Ecological climatology:concepts and applications,2nd edition-By Gordon B.Bonan[J].Geogr Res,2010,48(2):221-222.
[17] Allison S D,Wallenstein M D,Bradford M A.Soil-carbon response to warming dependent on microbial physiology[J].Nat Geosci,2010,3(5):336-340.
[18] Jastrow J D,Amonette J E,Bailey V L.Mechanisms controlling soil carbon turnover and their potential application for enhancing carbon sequestration[J].Climatic Change,2007,80(1/2):5-23.
[19] 联合国.联合国气候变化框架公约[EB/OL].联合国,1992.http://www.npc.gov.cn/zgrdw/wxzl/gongbao/1992-11/07/content_1479262.htm.
The United Nations.United Nations Framework Convention on Climate Change[EB/OL].UN,1992.http://www.npc.gov.cn/zgrdw/wxzl/gongbao/1992-11/07/content_1479262.htm.
[20] Friedlingstein P,Jones M W,O’Sullivan M,et al.Global carbon budget 2019[J].Earth Syst Sci Data,2019,11(4):1783-1838.
[21] IPCC.Summary for Policymakers[R].Geneva:IPCC,2021.
[22] Xi H P,Wang S J,Bai X Y,et al.The responses of weathering carbon sink to eco-hydrological processes in global rocks[J].Sci Total Environ,2021,788:147706.
[23] IEA.Energy Technology Perspectives 2014[R].Paris:IEA,2014.
[24] IEA.World energy outlook 2019[R].Paris:IEA,2019.
[25] 廖忠礼,张予杰,陈文彬,等.地热资源的特点与可持续开发利用[J].中国矿业,2006,15(10):8-11.
Liao Z L,Zhang Y J,Chen W B,et al.Available persist exploitation and utilization of geothermal resources[J].China Mining Maga,2006,15(10):8-11.
[26] 尹立河. 地热利用迎来又一个高峰——2010年世界地热大会见闻[J].国土资源,2010(6):33.
Yin L H.Geothermal utilization ushers in another peak-Information from the 2010 World Geothermal Conference[J].Land Resour,2010(6):33.
[27] 马冰,贾凌霄,于洋,等.世界地热能开发利用现状与展望[J/OL].中国地质:1-22.https://t.cnki.net/kcms/detail?v=3uoqIhG8C46NmWw7YpEsKHTPvOGrUOOqX1coEOzL8AFuwhnHw-56TjQhkkb7rbUIW4E8QNGdyRlH_8piWuR2C-TLqI4aeOV4e&un-iplatform=NZKPT.
Ma B,Jia L X,Yu Y,et al.The status and prospect of development and utilization of world geothermal resources[J/OL].Geol China:1-22.https://t.cnki.net/kcms/detail?v=3uoqIhG8C46NmWw7YpEsKHTPvOGrUOOqX1coEOzL8AFuwhnHw-56TjQhkkb7rbUIW4E8QNGdyRlH_8piWuR2C-TLqI4aeOV4e&un-iplatform=NZKPT.
[28] 武贺,王鑫,李守宏.中国潮汐能资源评估与开发利用研究进展[J].海洋通报,2015,34(4):370-376.
Wu H,Wang X,Li S H.Advance in the study of assessment and utilization of tidal energy resource in China[J].Marine Sci Bull,2015,34(4):370-376.
[29] 林东,何立君,田宏悦,等.我国潮流能发电发展现状及机组技术探究——定桨距水平轴潮流能发电机组的启机控制及优化[J].海洋经济,2021,11(2):96-103.
Lin D,He L J,Tian H Y,et al.Tidal current power generation development status and its unit technology:start up control and optimization of fixed pitch horizontal axis tidal power generating un-it[J].Mar Econ,2021,11(2):96-103.
[30] Lee J Y,Ryu B J,Yun T S,et al.Review on the gas hydrate deve-lopment and production as a new energy resource[J].KSCE J Civil Eng,2011,15(4):689-696.
[31] 侯亮,杨金华,刘知鑫,等.中国海域天然气水合物开采技术现状及建议[J].世界石油工业,2021,28(3):17-22.
Hou L,Yang J H,Liu Z X,et al.Current status and suggestions on development of marine gas hydrate technologies in China[J].World Petrol Ind,2021,28(3):17-22.
[32] 吴西顺,黄文斌,刘文超,等.全球天然气水合物资源潜力评价及勘查试采进展[J].海洋地质前沿,2017,33(7):63-78.
Wu X S,Huang W B,Liu W C,et al.World-wide progress of resource potential assessment,exploration and production test of na-tural gas hydrate[J].Mar Geol Front,2017,33(7):63-78.
[33] 国家能源局.国新办举行中国可再生能源发展有关情况发布会[EB/OL].(2021-03-30).http://www.nea.gov.cn/2021-03/30/c_139846095.htm.
National Energy Administration.Press conference on China's renewable energy development held by the State Council Information Office[EB/OL].(2021-03-30).http://www.nea.gov.cn/2021-03/30/c_139846095.htm.
[34] 宋兹鹏.中储国能:发挥压缩空气储能技术优势为能源行业提供优质储能资产[J].中国商界,2021(6):92-95.
Song C P.Taking advantage of compressed air energy storage technology to provide high quality energy storage assets for energy industry[J].Busin China,2021(6):92-95.
[35] 梅生伟,公茂琼,秦国良,等.基于盐穴储气的先进绝热压缩空气储能技术及应用前景[J].电网技术,2017,41(10):3392-3399.
Mei S W,Gong M Q,Qin G L,et al.Advanced adiabatic compressed air energy storage system with salt cavern air storage and its application prospects[J].Power Syst Technol,2017,41(10):3392-3399.
[36] 王洪浩,李江海,李维波.盐穴在储能技术中的应用[J].科学,2016,68(1):46-48.
Wang H H,Li J H,Li W B.Application of salt caverns in energy storage technology[J].Science,2016,68(1):46-48.
[37] 何青,郝银萍,刘文毅.一种新型跨临界压缩二氧化碳储能系统热力分析与改进[J].华北电力大学学报(自然科学版),2020,47(5):93-101.
He Q,Hao Y P,Liu W Y.Thermodynamic analysis and improvement of novel trans-critical compressed carbon dioxide energy storage system[J].J North China Electric Power Univ (Nat Sci Ed),2020,47(5):93-101.
[38] Guo C B,Li C,Zhang K N,et al.The promise and challenges of utility-scale compressed air energy storage in aquifers[J].Appl Energy,2021,286:116513.
[39] 郭朝斌,王志辉,刘凯,等.特殊地下空间应用与研究现状[J].中国地质,2019,46(3):482-492.
Guo C B,Wang Z H,Liu K,et al.The application and research progress of special underground space[J].Geol China,2019,46(3):482-492.
[40] Allen R D,Doherty T J,Kannberg L D.Summary of Selected Compressed Air Energy Storage Studies[R].Richland:Pacific Northwest Labs,1985.
[41] Heath J E,Bauer S J,Broome S T,et al.Petrologic and Petrophysical Evaluation of the Dallas Center Structure,Iowa,for Compressed Air Energy Storage in the Mount Simon Sandstone[R].Albuquerque:Sandia National Lab,2013.
[42] 易碳家.地质碳汇——什么是地质碳汇的概念定义作用以及有哪些影响和意义[EB/OL].(2014-06-19).http://www.tanjiaoyi.com/article-1838-1.html.
Yi T J.Geological carbon sink-The Concept and Function of Geological Carbon Sink and Its Influence and Significance[EB/OL].(2014-06-19).http://www.tanjiaoyi.com/article-1838-1.html.
[43] 崔俊富,苗建军,陈金伟.低碳经济与中国碳汇发展研究——基于森林碳汇、土壤碳汇和地质碳汇的讨论[J].华北电力大学学报(社会科学版),2015(4):1-6.
Cui J F,Miao J J,Chen J W.Research on China low carbon economy and carbon sinks-Discussion on forest,soil and geological sequestration[J].J North China Electr Power Univ (Soc Sci),2015(4):1-6.
[44] 方星,孙健,魏永霞.安徽省地质碳汇潜力及二氧化碳地质储存[J].安徽地质,2010,20(2):81-84,89.
Fang X,Sun J,Wei Y X.Geological carbon sink potential and geo-logical storage of carbon dioxide in Anhui Province[J].Geol Anhui,2010,20(2):81-84,89.
[45] 中国矿业报.地质工作与碳中和:碳汇[EB/OL].(2021-03-19).http://explore.chinamining.org.cn/html/garden/technology/2021/0319/26819.html.
China Mining News.Geological Work and Carbon Neutrality:Carbon Sinks[EB/OL].(2021-03-19).http://explore.chinamining.org.cn/html/garden/technology/2021/0319/26819.html.
[46] Ridgwell A,Edwards U.Geological Carbon Sinks[M]//Reay D S,Hewitt N,Grace J,et al.Greenhouse Gas Sinks.Oxford:CAB International,2007:74-97.
[47] 曹建华.岩溶碳汇[N].中国矿业报,2021-04-16(3).
Cao J H.Karst carbon sink[N].China Mining News,2021-04-16(3).
[48] 曹建华. 流域尺度岩溶碳循环及碳汇效应调查与监测技术[R].北京:中国地质调查局,2021.
Cao J H.Survey and Monitoring Technology of Karst Carbon Cycle and Carbon Sink Effect on Watershed Scale[R].Beijing:China Geological Survey,2021.
[49] 蒋忠诚,曹建华,覃小群,等.中国地质碳汇潜力研究[R].桂林:中国地质科学院岩溶地质研究所,2013.
Jiang Z C,Cao J H,Qin X Q,et al.Capacity Research on Geolo-gical Carbon Sink in China[R].Guilin:Institute of Karst Geology,Chinese Academy of Geological Sciences,2013.
[50] 中华人民共和国自然资源部.2017中国土地矿产海洋资源统计公报[R].2018.
Ministry of Natural Resources,People’s Republic of China.The Communique of Land,Mining and Ocean Resources of China in 2017[R].2018.
[51] Metz B,Davidson O,de Coninck H,et al.Carbon Dioxide Capture and Storage:Special Report of the Intergovernmental Panel on Climate Change[M].Cambridge: Cambridge University Press,2005.
[52] Carbfix.com[EB/OL].https://www.carbfix.com/how-it-works.
[53] Snæbjörnsdóttir S Ó,Sigfússon B,Marieni C,et al.Carbon dioxide storage through mineral carbonation[J].Nat Rev Earth Environ,2020,1(2):90-102.
[54] 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].Geolo Bull China,2005,24(12):1107-1110.
[55] 郭建强,文冬光,张森琦.全国二氧化碳地质储存潜力与适宜性评价成果报告[R].北京:全国地质资料馆,2013.
Guo J Q,Wen D G,Zhang S Q.Report of CO₂ Geological Storage Capacity and Suitability Evaluation of China[R].Beijing:National Geological Data Museum,2013.
[56] Dahowski R T,Li X,Davidson C L,et al.A preliminary cost curve assessment of carbon dioxide capture and storage potential in China[J].Energy Proced,2009,1(1):2849-2856.