CHEN S Y , LIU J F , ZHANG Q , et al . A critical review on deployment planning and risk analysis of carbon capture, utilization, and storage (CCUS) toward carbon neutrality [J ] . Renewable and Sustainable Energy Reviews , 2022 , 167 : 112537 .

DOU L R , SUN L D , LIU W F , et al . Trend of global carbon dioxide capture, utilization and storage industry and challenges and countermeasures in China [J ] . Petroleum Exploration and Development , 2023 , 50 ( 5 ): 1246 - 1260 .

SONG X M , WANG F , MA D S , et al . Progress and prospect of carbon dioxide capture, utilization and storage in CNPC oilfields [J ] . Petroleum Exploration and Development , 2023 , 50 ( 1 ): 229 - 244 .

TANG H T , ZHANG S , CHEN W Y . Assessing representative CCUS layouts for China’s power sector toward carbon neutrality [J ] . Environmental Science & Technology , 2021 , 55 : 11225 - 11235 .

谢和平 , 刘涛 , 吴一凡 , 等 . CO 2 的能源化利用技术进展与展望 [J ] . 工程科学与技术 , 2022 , 54 ( 1 ): 145 - 156 .

XIE H P , LIU T , WU Y F , et al . Progress and prospect of CO 2 energy utilization technology [J ] . Advanced Engineering Sciences , 2022 , 54 ( 1 ): 145 - 156 .

WEI N , LI X C , LIU S N , 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 .

WEI N , JIAO Z S , ELLEYY K , et al . Decarbonizing the coal-fired power sector in China via carbon capture, geological utilization, and storage technology [J ] . Environmental Science and Technology , 2021 , 55 ( 19 ): 13164 - 13173 .

YANG L , LV H D , JIANG D L , et al . Whether CCS technologies will exacerbate the water crisis in China? ―A full life-cycle analysis [J ] . Renewable and Sustainable Energy Reviews , 2020 , 134 : 110374 .

陆诗建 , 祝文举 , 刘玲 , 等 . 胺吸收剂逃逸引发的大气气相反应进展 [J ] . 化工进展 , 2024 , 43 ( 11 ): 6397 - 6411 .

LU S J , ZHU W J , LIU L , et al . Advances in atmospheric gas-phase reactions initiated by amine absorbent escape [J ] . Chemical Industry and Engineering Progress , 2024 , 43 ( 11 ): 6397 - 6411 .

YANG L , WEI N , LV H D , et al . Optimal deployment for carbon capture enables more than half of China’s coal-fired power plant to achieve low-carbon transformation [J ] . Science , 2022 , 25 ( 12 ): 105664 .

ZHANG L Y , SONG Y F , SHI J L , et al . Frontiers of CO 2 capture and utilization (CCUS) towards carbon neutrality [J ] . Advances in Atmospheric Sciences , 2022 , 39 : 1252 - 1270 .

申长俊 , 陆诗建 , 刘玲 , 等 . 船舶尾气净化技术研究进展 [J ] . 低碳化学与化工 , 2024 , 49 ( 4 ): 98 - 106 .

SHEN C J , LU S J , LIU L , et al . Research progress of ship exhaust purification technology [J ] . Low-Carbon Chemistry and Chemical Engineering , 2024 , 49 ( 4 ): 98 - 106 .

许毛 , 张贤 , 樊静丽 , 等 . 我国煤制氢与CCUS技术集成应用的现状、机遇与挑战 [J ] . 矿业科学学报 , 2021 , 6 ( 6 ): 659 - 666 .

XU M , ZHANG X , FAN J L , et al . Status quo, opportunities and challenges of integrated application of coal-to-hydrogen and CCUS technology in China [J ] . Journal of Mining Science and Technology , 2021 , 6 ( 6 ): 659 - 666 .

ZHANG W W , DAI C Y , LUO X M , et al . Policy incentives in carbon capture utilization and storage (CCUS) investment based on real options analysis [J ] . Clean Technologies and Environmental Policy , 2021 , 23 : 1131 - 1326 ．

梁锋 . 碳中和目标下碳捕集、利用与封存（CCUS）技术的发展 [J ] . 能源化工 , 2021 , 42 ( 5 ): 19 - 26 ．

LIANG F . Development of carbon capture, utilization and storage (CCUS) under the carbon neutrality targets [J ] . Energy Chemical Industry , 2021 , 42 ( 5 ): 19 - 26 ．

王宁 , 陆诗建 , 刘玲 , 等 . 胺吸收体系中CO 2 催化解吸再生技术的研究进展 [J ] . 化工进展 , 2025 , 44 ( 1 ): 445 - 464 .

WANG N , LU S J , LIU L , et al . Research progress of catalytic regeneration for energy-efficient CO 2 capture in amine absorption system [J ] . Chemical Industry and Engineering Progress , 2025 , 44 ( 1 ): 445 - 464 .

樊静丽 , 李佳 , 晏水平 , 等 . 我国生物质能-碳捕集与封存技术应用潜力分析 [J ] . 热力发电 , 2021 , 50 ( 1 ): 7 - 17 .

FAN J L , LIN J , YAN S P , et al . Application potential analysis for bioenergy carbon capture and storage technology in China [J ] . Thermal Power Generation , 2021 , 50 ( 1 ): 7 - 17 .

BACHU S . Review of CO 2 storage efficiency in deep saline aquifers [J ] . International Journal of Greenhouse Gas Control , 2015 , 40 : 188 - 202 .

梅杰琼 , 陆诗建 , 任雪峰 , 等 . CO 2 间接矿化工业固废制备多晶型碳酸钙研究进展 [J ] . 洁净煤技术 , 2024 , 30 ( 3 ): 59 - 71 .

MEI J Q , LU S J , REN X F , et al . Preparation of various crystal forms of calcium carbonate from industrial solid waste by CO 2 in direct mineralization [J ] . Clean Coal Technology , 2024 , 30 ( 3 ): 59 - 71 .

CAI B F , LI Q , LIU G Z , et al . Environmental concern-based site screening of carbon dioxide geological storage in China [J ] . Scientific Reports , 2017 , 7 ( 1 ): 7598 .

DENG H , BIELICKI J M , OPPENHEIMER M , et al . Leakage risks of geologic CO 2 storage and the impacts on the global energy system and climate change mitigation [J ] . Climatic Change , 2017 , 144 ( 2 ): 151 - 163 .

DING H , ZHENG H R , LIANG X , et al . Getting ready for carbon capture and storage in the iron and steel sector in China: Assessing the value of capture readiness [J ] . Journal of Cleaner Production , 2020 , 244 : 118953 .

陆诗建 , 王风 , 刘玲 , 等 . 烟道气CO 2 捕集用醇胺溶液降解研究进展 [J ] . 低碳化学与化工 , 2024 , 49 ( 7 ): 13 - 22 .

LU S J , WANG F , LIU L , et al . Research progress on degradation of alcoholamine solution for CO 2 capture in flue gas [J ] . Low-Carbon Chemistry and Chemical Engineering , 2024 , 49 ( 7 ): 13 - 22 .

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 X , LI Y , MA Q , et al . Development of carbon capture, utilization and storage technology in China [J ] . Engineering Science , 2021 , 23 ( 6 ): 70 - 80 .

韩永嘉 , 王树立 , 张鹏宇 , 等 . CO 2 分离捕集技术的现状与进展 [J ] . 天然气工业 , 2009 , 29 ( 12 ): 79 - 82 .

HAN Y J , WANG S L , ZHANG P Y , et al . Current status and progress of CO 2 separation and capture technology [J ] . Natural Gas Industry , 2009 , 29 ( 12 ): 79 - 82 .

张娟娟 , 陆诗建 , 刘玲 , 等 . CO 2 驱采及输送防腐 [J ] . 现代化工 , 2024 , 44 ( 5 ): 66 - 69 .

ZHANG J J , LU S J , LIU L , et al . CO 2 flooding and transportation anticorrosion [J ] . Modern Chemical Industry , 2024 , 44 ( 5 ): 66 - 69 .

EDWARDS R , CELIA M A . Infrastructure to enable deployment of carbon capture, utilization, and storage in the United States [J ] . Proceedings of the National Academy of Sciences , 2018 , 115 : 104679 .

翟明洋 , 林千果 , 马丽 , 等 . 电力行业碳捕集现状和发展趋势 [J ] . 环境科技 , 2014 , 27 ( 2 ): 65 - 69 .

ZHAI M Y , LIN Q G , MA L , et al . Current status and development of carbon capture in power generation industry [J ] . Environmental Science and Technology , 2014 , 27 ( 2 ): 65 - 69 .

薛博 , 刘勇 , 王沉 , 等 . 碳捕获、封存与利用技术及煤层封存CO 2 研究进展 [J ] . 化学世界 , 2020 , 61 ( 4 ): 294 - 297 .

XUE B , LIU Y , WANG C , et al . Progress on carbon capture, storage and utilization technology and coal seam CO 2 storage [J ] . Chemical World , 2020 , 61 ( 4 ): 294 - 297 .

陆诗建 , 张娟娟 , 杨菲 , 等 . 化学吸收法胺液逃逸控制技术研究进展 [J ] . 化工进展 , 2024 , 43 ( 8 ): 4562 - 4570 .

LU S J , ZHANG J J , YANG F , et al . Research progress of amine escape control technology by chemical absorption method [J ] . Chemical Industry and Engineering Progress , 2024 , 43 ( 8 ): 4562 - 4570 .

EIKELAND P , SKJARETH J B . The politics of low-carbon innovation: Implementing the European Union’s strategic energy technology plan [J ] . Energy Research & Social Science , 2021 , 76 : 102043 .

陆诗建 , 张娟娟 , 杨菲 , 等 . CO 2 管道输送技术进展与未来发展浅析 [J ] . 南京大学学报（自然科学） , 2022 , 58 ( 6 ): 944 - 952 .

LU S J , ZHANG J J , YANG F , et al . Progress and future development trend of CO 2 pipeline transportation technology [J ] . Journal of Nanjing University (Natural Sciences) , 2022 , 58 ( 6 ): 944 - 952 .

FAN J L , XU M , WEI S , et al . Carbon reduction potential of China’s coal-fired power plants based on a CCUS source-sink matching model [J ] . Resources Conservation and Recycling , 2021 , 168 : 105320 .

FAN J L , WEI S , SHEN S , et al . Geological storage potential of CO 2 emissions for China’s coal-fired power plants: A city-level analysis [J ] . International Journal of Greenhouse Gas Control , 2021 , 106 : 103278 .

FARABI-ASL H , ITAOKA K , CHAPMAN A , et al . Key factors for achieving emission reduction goals cognizant of CCS [J ] . International Journal of Greenhouse Gas Control , 2020 , 99 : 103097 .

FEIJOO F , IYER G , BINSTED M , et al . US energy system transitions under cumulative emissions budgets [J ] . Climatic Change , 2020 , 162 ( 4 ): 1947 - 1963 .

陆诗建 , 张媛媛 , 吴文华 , 等 . 百万吨级CO 2 捕集项目亚硝胺污染物扩散健康风险评估 [J ] . 化工进展 , 2023 , 42 ( 6 ): 3209 - 3216 .

LU S J , ZHANG Y Y , WU W H , et al . Health risk assessment of nitrosamine pollutant diffusion in a million ton CO 2 capture project [J ] . Chemical Industry and Engineering Progress , 2023 , 42 ( 6 ): 3209 - 3216 .

GUO J X , HUANG C . Feasible roadmap for CCS retrofit of coal-based power plants to reduce Chinese carbon emissions by 2050 [J ] . Applied Energy , 2020 , 259 : 114112 .

HAN B C , WEI G S , ZHU R , et al . Utilization of carbon dioxide injection in BOF-RH steel making process [J ] . Journal of CO 2 Utilization , 2019 , 34 : 53 - 62 .

韩学义 . 电力行业二氧化碳捕集、利用与封存现状与展望 [J ] . 中国资源综合利用 , 2020 , 38 ( 2 ): 110 - 117 .

HAN X Y . Current situation and prospect of carbon dioxide capture, utilization and storage in electric power industry [J ] . China Resources Comprehensive Utilization , 2020 , 38 ( 2 ): 110 - 117 .

黄晶 , 陈其针 , 仲平 , 等 . 中国碳捕集利用与封存技术评估报告 [M ] . 北京 : 科学出版社 , 2021 .

HUANG J , CHEN Q Z , ZHONG P , et al . Assessment report on carbon capture, utilization and storage technology in China [M ] . Beijing : Science Press , 2021 .

IPCC . Special report on global warming of 1.5 ℃ [M ] . Cambridge : Cambridge University Press , 2018 .

黄晶 , 马乔 , 史明威 , 等 . 碳中和视角下CCUS技术发展进程及对策建议 [J ] . 环境影响评价 , 2022 , 44 ( 1 ): 42 - 47 .

HUANG J , MA Q , SHI M W , et al . The Process and Suggestions on of CCUS technology development from the perspective of carbon neutrality [J ] . Environment Impact Assessment , 2022 , 44 ( 1 ): 42 - 47 .

HU B , ZHAI H B . The cost of carbon capture and storage for coal-fired power plants in China [J ] . International Journal of Greenhouse Gas Control , 2017 , 65 : 23 - 31 .

CHEN H D , WANG C , YE M H . An uncertainty analysis of subsidy for carbon capture and storage (CCS) retrofitting investment in China’s coal power plants using a real-options approach [J ] . Journal of Cleaner Production , 2016 , 137 : 200 - 212 .

HUANG Y , YI Q , KANG J X , et al . Investigation and optimization analysis on deployment of China coal chemical industry under carbon emission constraints [J ] . Applied Energy , 2019 , 254 : 113684 .

彭雪婷 , 吕昊东 , 张贤 . IPCC AR6报告解读: 全球碳捕集利用与封存（CCUS）技术发展评估 [J ] . 气候变化研究进展 , 2022 , 18 ( 5 ): 580 - 590 .

PENG X T , LU H D , ZHANG X . IPCC AR6 report interpretation: Global assessment of carbon capture, utilization and storage (CCUS) technology development [J ] . Climate Change Research , 2022 , 18 ( 5 ): 580 - 590 .

JIANG Y , LEI Y L , YAN X , et al . Employment impact assessment of carbon capture and storage (CCS) in China’s power sector based on input-output model [J ] . Environmental Science and Pollution Research , 2019 , 26 ( 15 ): 15665 - 15676 .

KATELHON A , MEYS R , DEUTZ S , et al . Climate change mitigation potential of carbon capture and utilization in the chemical industry [J ] . Proceedings of the National Academy of Sciences , 2019 , 116 ( 23 ): 11187 .

WANG T , WANG X R , HOU C L , et al . Quaternary functionalized mesoporous adsorbents for ultra-high kinetics of CO 2 capture from air [J ] . Scientific Reports , 2020 , 10 ( 1 ): 21429

魏宁 , 姜大霖 , 刘胜男 , 等 . 国家能源集团燃煤电厂CCUS改造的成本竞争力分析 [J ] . 中国电机工程学报 , 2020 , 40 ( 4 ): 1258 - 1265+1416 .

WEI N , JIANG D L , LIU S N , et al . Cost competitiveness analysis of retrofitting CCUS to coal-fired power plants [J ] . Proceedings of the CSEE , 2020 , 40 ( 4 ): 1258 - 1265+1416 .

KEARNS J , TELETZKE G , PALMER J , et al . Developing a consistent database for regional geologic CO 2 storage capacity worldwide [J ] . Energy Procedia , 2017 , 114 : 4697 - 4709 .

KIM M , KIM K , KIM T H , et al . Economic and environmental benefit analysis of a renewable energy supply system integrated with car bon capture and utilization framework [J ] . Chemical Engineering Research & Design , 2019 , 147 : 200 - 213 .

REN L , ZHOU S , PENG T D , et al . A review of CO 2 emissions reduction technologies and low-carbon development in the iron and steel industry focusing on China [J ] . Renewable and Sustainable Energy Reviews , 2021 , 143 : 110846 .

魏一鸣 , 余碧莹 , 唐葆君 , 等 . 中国碳达峰碳中和时间表与路线图研究 [J ] . 北京理工大学学报（社会科学版） , 2022 , 24 ( 4 ): 13 - 26 .

WEI Y M , YU B Y , TANG B J , et al . Research on China’s carbon peak and carbon neutrality timetable and roadmap [J ] . Journal of Beijing Institute of Technology (Social Sciences Edition) , 2022 , 24 ( 4 ): 13 - 26 .

曾俣琳 . 不同商业模式下的国有燃煤电厂碳捕集、利用与封存（CCUS）项目投资决策研究 [D ] . 重庆 : 重庆工商大学 , 2020 .

ZENG Y L . Investment decision research on carbon capture, utilization and storage technology of coal-fired power plants under different business model [D ] . Chongqing : Chongqing Technology and Business University , 2020 .

LI X C , WEI N , JIAO Z S , et al . Cost curve of large-scale deployment of CO 2 -enhanced water recovery technology in modern coal chemical industries in China [J ] . International Journal of Greenhouse Gas Control , 2019 , 81 : 66 - 82 .

LIN B Q , TAN Z Z . How much impact will low oil price and carbon trading mechanism have on the value of carbon capture utilization and storage (CCUS) project? Analysis based on real option method [J ] . Journal of Cleaner Production , 2021 , 298 : 126768 .

LIU Y R , LI F F , ZHANG X P , et al . Recent progress on electrochemical reduction of CO 2 to methanol [J ] . Current Opinion in Green and Sustainable Chemistry , 2020 , 23 : 10 - 17 .

张贤 , 郭偲悦 , 孔慧 , 等 . 碳中和愿景的科技需求与技术路径 [J ] . 中国环境管理 , 2021 , 13 ( 1 ): 65 - 70 .

ZHANG X , GUO S Y , KONG H . The scientific and technological needs and technical paths of the carbon neutrality vision [J ] . Chinese Journal of Environmental Management , 2021 , 13 ( 1 ): 65 - 70 .

LUO Q , WANG Y B , WANG Y S , et al . Time-lapse VSP monitoring for CO 2 injection: A case study in Ordos, China [J ] . International Journal of Greenhouse Gas Control , 2018 , 75 : 41 - 51 .

RAS K D , VIJVER R , GALVITA V V , et al . Carbon capture and utilization in the steel industry: Challenges and opportunities for chemical engineering [J ] . Current Opinion in Chemical Engineering , 2019 , 26 : 81 - 87 .

TANG B J , LI R , YU B Y , et al . How to peak carbon emissions in China’s power sector: A regional perspective [J ] . Energy Policy , 2018 , 120 : 365 - 381 .

SUN L L , DOU H G , LI Z P , et al . Assessment of CO 2 storage potential and carbon capture, utilization and storage prospect in China [J ] . Journal of the Energy Institute , 2018 , 91 ( 6 ): 970 - 977 .

TIAN S C , JIANG J G , ZHANG Z T , et al . Inherent potential of steelmaking to contribute to decarbonisation targets via industrial carbon capture and storage [J ] . Nature Communications , 2018 , 9 ( 1 ): 4422 .

VAN VUUREN D P , STEHFEST E , GERNAAT , D , et al . Alternative pathways to the 1.5 ℃ target reduce the need for negative emission technologies [J ] . Nature Climate Change , 2018 , 8 : 391 - 397 .

WANG X Z , ZENG F H , GAO R M , et al . Cleaner coal and greener oil production: An integrated CCUS approach in petroleum group [J ] . International Journal of Greenhouse Gas Control , 2017 , 62 : 13 - 22 .

AN R Y , YU B Y , RU L , et al . Potential of energy savings and CO 2 emission reduction in China’s iron and steel industry [J ] . Applied Energy , 2018 , 226 : 862 - 880 .

YANG L , XU M , YANG Y , et al . Comparison of subsidy schemes for carbon capture utilization and storage (CCUS) investment based on real option approach: Evidence from China [J ] . Applied Energy , 2019 , 255 : 113828 .

FUJITA K , MURAOKA D , KASEDA T , et al . Impact of the aerosol particle included in actual flue gas on amine mist formation/growth in the post-combustion capture pilot plant [J ] . Energy Procedia , 2017 , 114 : 930 - 938 .

KHAKHARIA P , MERTENS J , ABU-ZAHRA M R M , et al . Predicting aerosol based emissions in a post combustion CO 2 capture process using an Aspen Plus model [J ] . Energy Procedia , 2014 , 63 : 911 - 925 .

LI C , YI N T , FANG M X , et al . Solvent emissions control in large scale chemical absorption CO 2 capture plant [J ] . International Journal of Greenhouse Gas Control , 2021 , 111 : 103444 .

SUN G , LIU Y Q , LU H , et al . Experimental and applied research on new fiber agglomerated wastewater degreasing technology [J ] . Water Treatment Technology , 2019 , 45 ( 9 ): 110 - 114 .

YAO X , ZHONG P , ZHANG X , et al . Business model design for the carbon capture utilization and storage (CCUS) project in China [J ] . Energy Policy , 2018 , 121 : 519 - 533 .

SLAVU N , BADEA A , DINCA C . Optimal parameters of the aqueous ammonia process for CO 2 separation [J ] . International Conference on Energy and Environment , 2019 , 26 : 64 - 68 .

LI W , JAMES L , BRADLEY I , et al . Use of carbon steel for construction of post-combustion CO 2 capture facilities: A pilot-scale corrosion study [J ] . Industrial & Engineering Chemistry Research , 2017 , 56 ( 16 ): 4792 - 4803 .

MA S C , CHEN G D , GAO R , et al . Experimental research of ammonia escape in CO 2 absorption using ammonia solution in wetted-wall column [J ] . International Journal of Greenhouse Gas Control , 2016 , 51 : 254 - 259 .

JIANG Y , LEI Y L , YANG Y Z , et al . Life cycle CO 2 emiss ion estimation of CCS-EOR system using different CO 2 sources [J ] . Polish Journal of Environmental Studies , 2018 , 27 ( 6 ): 2573 - 2583 .

YI Q , ZHAO Y J , HUANG Y , et al . Life cycle energy-economic-CO 2 emissions evaluation of biomass/coal, with and without CO 2 capture and storage, in a pulverized fuel combustion power plant in the United Kingdom [J ] . Applied Energy , 2018 , 225 : 258 - 272 .

SHAO L Y , XU F , WU Z C , et al . Reducing aerosol and ammonia emission in post-combustion CO 2 capture: Additives as key solutions [J ] . Science Total Environment , 2024 , 943 : 173627 .