XU Dong;ZHANG Shuai;HAN Tao;ZHENG Xufan;CHANG Lin;FENG Baiyang;FENG Lei;

• 1:New Energy Technology Research Institute
• 2:CHN Energy

Abstract：

Carbon capture, utilization and storage(CCUS) is an important strategic choice to achieve the goal of carbon neutrality. China′s energy and power structure is dominated by coal. The coal power+CCUS technology is an important guarantee to achieve deep decarburization of the power system and flexible and stable power supply. At present, the development of China′s CCUS industry has many problems, such as high barriers, high costs, imperfect policies and regulations, lack of incentive policies, and difficulties in financial financing channels, which limit the large-scale development of coal power CCUS technology. Focusing on the opportunities and challenges faced by the low carbon transformation of the coal power industry, the policies, regulations and successful cases in the field of CCUS in the United States, the European Union, the United Kingdom and other countries and regions were comprehensively analyzed, the successful experience in the construction of the CCUS policy system in developed countries and its enlightenment to China was summarized, the current situation and needs of China′s CCUS policy system were analyzed, the impact of different incentive policies on the transformation of coal-fired power CCUS was studied, and policy recommendations were proposed for the development of coal-fired power CCUS from the perspectives of CCUS positioning, policy incentives, standard specifications, publicity and guidance, etc. It can provide reference for promoting the development of CCUS industry and achieving the goal of carbon neutrality of coal power.

Key Words： coal power;CCUS;carbon neutrality;large-scale development;policy incentives

Abstract:

Keywords:

Foundation: 中国科协青年人才托举工程资助项目(2021QNRC001);; 国家能源集团2022年“揭榜挂帅”政研课题资助项目;; 国家能源集团2022年度科技创新资助项目(GJNY-22-99);; 国家能源集团2021年度十大重点科技攻关资助项目(GJNY-21-51);; 厂控科技创新资助项目(10038803EB210021)

Authors: XU Dong;ZHANG Shuai;HAN Tao;ZHENG Xufan;CHANG Lin;FENG Baiyang;FENG Lei;

DOI: 10.13226/j.issn.1006-6772.RM22111101

References：

• [1] 新华网.习近平在第七十五届联合国大会一般性辩论上的讲话(全文)[EB/OL].(2020-09-22)[2022-10-11].http://www.xinhuanet.com/politics/leaders/2020-09/22/c_1126527652.htm.
• [2] 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.
• [3] 朱法华，徐静馨，潘超，等.煤电在碳中和目标实现中的机遇与挑战[J].电力科技与环保，2022,38(2):79-86.ZHU Fahua,XU Jingxin,PAN Chao,et al.Opportunities and challenges of coal power industry in the achievement of carbon neutrality goal[J].Electric Power Environmental Protection,2022,38(2):79-86.
• [4] 马双忱，樊帅军，武凯，等.双碳战略背景下燃煤电厂CCUS技术发展：挑战与应对[J].洁净煤技术，2022,28(6):1-13.MA Shuangchen,FAN Shuaijun,WU Kai,et al.CCUS technology development of coal-fired power plant under the background of dual carbon strategy:Challenges and countermeasures[J].Clean Coal Technology,2022,28(6):1-13.
• [5] 蔡博峰，李琦，张贤，等.中国二氧化碳捕集利用与封存(CCUS)年度报告(2021):中国CCUS路径研究 [R].北京：生态环境部环境规划院，中国科学院武汉岩土力学研究所，中国21世纪议程管理中心，2021.
• [6] IEA.Energy technology perspectives 2020:Special report on clean energy innovation [R/OL].(2020-11-10) [2022-10-11].https://www.oecd-ilibrary.org/energy/energy-technology-perspectives-2020_ab43a9a5-en.
• [7] 伍博超.政策性金融支持“煤电+CCUS”产业发展研究[J].商学研究，2021,28(3):22-30.WU Bochao.Research on the "coal Power + CCUS" industry development supported by policy-based finance[J].Commercial Science Research,2021,28(3):22-30.
• [8] 张贤，李阳，马乔，等.我国碳捕集利用与封存技术发展研究[J].中国工程科学，2021,23(6):70-80.ZHANG Xian,LI Yang,MA Qiao,et al.Development of carbon capture,utilization and storage technology in China[J].Strategic Study of CAE,2021,23(6):70-80.
• [9] 樊强，许世森，刘沅，等.基于IGCC的燃烧前 CO2捕集技术应用与示范 [J].中国电力，2017,50(5):163-167,184.FAN Qiang,XU Shisen,LIU Yan,et al.Application and demonstration of IGCC-based pre-combustion CO2 capture technology[J].Electric Power,2017,50(5):163-167,184.
• [10] 方圆.落实“双碳”目标化工建设企业大有可为：陕西国华锦界15万 t/a 二氧化碳捕集(CCS)示范工程建设纪实[J].石油化工建设，2021,43(5):1-5.FANG Yuan.There is a bright future for chemical construction enterprises to implement the target of "double carbon":The construction record of Shaanxi Guohua Jinjie 150 000 t/a Carbon Dioxide Capture (CCS) demonstration project[J].Petroleum & Chemical Construction,2021,43(5):1-5.
• [11] 孙路长，王争荣，吴冲，等.燃煤电厂万吨级碳捕集工程设计与运行优化研究[J].综合智慧能源，2021,43(6):69-78.SUN Luchang,WANG Zhengrong,WU Chong,et al.Research on operation optimization of a 10 000 t/a carbon capture project for coal-fired power plants[J].Integrated Intelligent Energy,2021,43(6):69-78.
• [12] 林永明.中国燃煤电厂CO2捕集技术开发及应用[J].广西电力，2013,36(3):16-19,27.LIN Yongming.Development and application of CO2 capture technology of coal-fired power plant in China[J].Guangxi Electric Power,2013,36(3):16-19,27.
• [13] 屈紫懿.燃煤电厂烟气 CO2捕集技术经济性分析[J].重庆电力高等专科学校学报，2019,24(4):31-34.QU Ziyi.Economy analysis of CO2 collection technique for flue gas of the coal-fired power plant[J].Journal of Chongqing Electric Power College,2019,24(4):31-34.
• [14] 郑秀亮.把二氧化碳“禁锢”起来 [J].环境，2019(9):64-66.ZHENG Xiuliang.Confining carbon dioxide[J].Environment,2019(9):64-66.
• [15] 郭军军，张泰，李鹏飞，等.中国煤粉富氧燃烧的工业示范进展及展望[J].中国电机工程学报，2021,41(4):1197-1208,1526.GUO Junjun,ZHANG Tai,LI Pengfei,et al.Industrial demonstration progress and trend in pulverized coal oxy-fuel combustion in China[J].Proceedings of the CSEE,2021,41(4):1197-1208,1526.
• [16] FAN Jingli,XU Mao,YANG Lin,et al.How can carbon capture utilization and storage be incentivized in China?A perspective based on the 45Q tax credit provisions [J].Energy Policy,2019,132:1229-1240.
• [17] 王建芳，苏利阳，谭显春，等.主要经济体碳中和战略取向、政策举措及启示[J].中国科学院院刊，2022,37(4):479-489.WANG Jianfang,SU Liyang,TAN Xianchun,et al.Carbon neutrality policy measures in global major economies[J].Bulletin of Chinese Academy of Sciences,2022,37(4):479-489.
• [18] 刘海楠，王浩然，甘振宇.国外经验表明推动CCUS发展需四力齐发[R/OL].(2021-05-18)[2022-10-11].https://huanbao.bjx.com.cn/news/20210518/1153027.shtml.
• [19] 环球市场播报.新税收抵免计划将促进加拿大碳捕集发展[R/OL].(2022-05-13)[2022-10-11].http://www.tanjiaoyi.com/article-37739-1.html.
• [20] 中国能源网.政策扶持开启接棒模式，CCUS行业发展前景可期[R/OL].(2022-05-06)[2022-10-11].http://www.cnenergynews.cn/zhuanti/2022/05/06/detail_20220506122995.html.
• [21] 宋亚楠.CCUS技术的减排作用与应用前景[J].金融纵横，2021(9):35-43.SONG Yanan.Emission reduction effect and application prospect of CCUS technology[J].Financial Perspectives Journal,2021(9):35-43.
• [22] WEI Ning,LI Xiaochun,LIU Shengnan,et al.A strategic framework for commercialization of carbon capture,geological utilization,and storage technology in China[J].International Journal of Greenhouse Gas Control,2021,110:103420.
• [23] WEI Ning,JIAO Zunsheng,ELLETT Kevin,et al.Decarbo-nizing the coal-fired power sector in China via carbon capture,geological utilization,and storage technology[J].Environmental Science & Technology,2021,55(19):13164-13173.
• [24] FAN Jingli,WEI Shijie,YANG Lin,et al.Comparison of the LCOE between coal-fired power plants with CCS and main low-carbon generation technologies:Evidence from China[J].Energy,2019,176:143-155.
• [25] CHEN Wenhui,LU Xi,LEI Yalin,et al.A comparison of incent-ive policies for the optimal layout of CCUS clusters in China′s coal-fired power plants toward carbon neutrality[J].Engineering,2021,7(12):1692-1695.
• [26] 聂鹏飞，高哲远，王喜平.不同商业模式下燃煤电厂CCUS投资决策研究[J].热力发电，2023,52(4):63-71.NIE Pengfei,GAO Zheyuan,WANG Xiping.Research on CCUS investment decision of coal-fired power plant under different business modes[J].Thermal Power Generation,2023,52(4):63-71.
• [27] YANG Lin,XU Mao,FAN Jingli,et al.Financing coal-fired power plant to demonstrate CCS (carbon capture and storage) through an innovative policy incentive in China[J].Energy Policy,2021,158:112562.
• [28] FAN Jingli,LI Zezheng,LI Kai,et al.Modelling plant-level abatement costs and effects of incentive policies for coal-fired power generation retrofitted with CCUS[J].Energy Policy,2022,165:112959.
• [29] FAN Jingli,XU Mao,WEI Shijie,et al.Carbon reduction potential of China′s coal-fired power plants based on a CCUS source-sink matching model[J].Resources,Conservation & Recycling,2020,168:105320.