CO2捕集和利用技术的应用与研发进展

doi:10.13809/j.cnki.cn32-1825/te.2024.01.010

Abstract

Abstract:

The global consensus on achieving carbon neutrality is driven by the urgent need to address climate change caused by excessive CO₂ emissions. Carbon Capture, Utilization, and Storage（CCUS） stands out as a critical solution, receiving significant attention from the researchers. Sinopec Nanjing Research Institute of Chemical Industry Co., Ltd. has been committed to the research and development and application of CO₂ capture and utilization technology for a long time. The institute has perfected three advanced carbon capture methods: low partial pressure flue gas carbon capture technology, NCMA（Nanjing chemical mixed amine） decarburization technology and catalytic hot potassium alkali decarburization technology, which have been successfully applied in many industrial projects. Furthermore, the institute is pushing boundaries in new carbon capture and CO₂ utilization technologies, achieving notable advancements that align with both domestic and international standards.

Key words: carbon capture, utilization, decarburization, flue gas, carbon neutralization

CLC Number:

TE991

Zhiyong HE,Benshuai GUO,Dong WANG, et al. Application and research progress of CO₂ capture and utilization technology[J]. Petroleum Reservoir Evaluation and Development, 2024, 14(1): 70-75.

References 16

[1]	汪黎东, 荆润秋, 王茹洁, 等. 中国火电行业燃煤烟气CO₂捕集技术路径探究[J]. 北京理工大学学报(社会科学版), 2022, 24(4): 66-73.
	WANG Lidong, JING Runqiu, WANG Rujie, et al. Research on the CO₂ emission reduction technology path of coal-fired flue gas in China’s thermal power industry[J]. Journal of Beijing Institute of Technology(Social Sciences Edition), 2022, 24(4): 66-73.
[2]	杜祥琬, 冯丽妃. 碳达峰与碳中和引领能源革命[N]. 中国科学报, 2020-12-22( 1).
	DU Xiangwan, FENG Lifei. Carbon peaking and carbon neutrality leading the energy revolution[N]. China Science Daily, 2020-12-22( 1).
[3]	毛松柏, 叶宁, 肖九高, 等. 低分压二氧化碳回收新技术的开发和应用[J]. 化学工业与工程技术, 2004, 25(3): 12-15.
	MAO Songbai, YE Ning, XIAO Jiugao, et al. Development and application of new technology for recovering carbon dioxide with low partial pressure[J]. Journal of Chemical Industry & Engineering, 2004, 25(3): 12-15.
[4]	毛松柏, 叶宁, 丁雅萍, 等. 烟道气中CO₂回收新技术的开发和应用[J]. 煤化工, 2005, 33(3): 25-28.
	MAO Songbai, YE Ning, DING Yaping, et al. Development and application of new technologies for CO₂ recovery from flue gas[J]. Coal Chemical Industry, 2005, 33(3): 25-28.
[5]	朱道平, 毛松柏. 活化MDEA脱碳溶剂的研究[J]. 化学工业与工程技术, 2013, 34(2): 27-29.
	ZHU Daoping, MAO Songbai. Study on activated MDEA decarbonization solvent[J]. Journal of Chemical Industry & Engineering, 2013, 34(2): 27-29.
[6]	毛松柏, 朱道平, 叶宁. NCMA法脱碳新技术及应用[J]. 气体净化, 2005, 28(4): 1-4.
	MAO Songbai, ZHU Daoping, Ye Ning. New technology and application of NCMA decarbonization[J]. Gas Purification, 2005, 28(4): 1-4.
[7]	周志斌, 朱道平, 余勇, 等. 高含碳天然气脱碳溶剂的研究[J]. 能源化工, 2021, 42(6): 42-45.
	ZHOU Zhibin, ZHU Daoping, YU Yong, et al. Study on decarbonizing solvent of high carbon natural gas[J]. Energy Chemical Industry, 2021, 42(6): 42-45.
[8]	朱道平, 周汉林, 李世广. 松南气田天然气脱碳技术[J]. 油气田地面工程, 2013, 32(3): 54-55.
	ZHU Daoping, ZHOU Hanlin, LI Shiguang. Natural gas decarbonization technology in Songnan gas Field[J]. Oil-Gas Field Surface Engineering, 2013, 32(3): 54-55.
[9]	刘百强, 朱道平. NCMA脱碳溶剂在干气提浓装置的应用[J]. 石油炼制与化工, 2014, 45(6): 79-81.
	LIU Baiqiang, ZHU Daoping. Application of NCMA Decarbonization Solvent in Dry Gas Concentration Unit[J]. Petroleum Processing and Petrochemicals, 2014, 45(6): 79-81.
[10]	王祥云. 化工反应循环气脱碳技术的开发应用[J]. 气体净化, 2015, 15(3): 14-18.
	WANG Xiangyun. Development and application of decarbonization technology for chemical reaction circulating gas[J]. Gas Purification, 2015, 15(3): 14-18.
[11]	王祥云. 活化热钾碱脱碳工艺的新进展[J]. 气体净化, 2014, 14(5): 9-12.
	WANG Xiangyun. New progress in activated hot potassium carbonate decarbonization process[J]. Gas Purification, 2014, 14(5): 9-12.
[12]	王祥云, 张叶, 徐莉. 脱碳再生气中非甲烷总烃超标的多级闪蒸处理方法[J]. 能源化工, 2019, 40(6): 4-7.
	WANG Xiangyun, ZHANG Ye, XU Li. Multistage flash evaporation treatment method for non methane total hydrocarbons exceeding the standard in decarbonization and regeneration Gas[J]. Energy Chemical Industry, 2019, 40(6): 4-7.
[13]	WU H, LI Q, SHENG M, et al. Membrane technology for CO₂ capture: from pilot-scale investigation of two-stage plant to actual system design[J]. Journal of Membrane Science, 2021, 624: 119137. doi: 10.1016/j.memsci.2021.119137
[14]	WU H, LI Q, GUO B, et al. Industrial-scale spiral-wound facilitated transport membrane modules for post-combustion CO₂ capture: development, investigation and optimization[J]. Journal of Membrane Science, 2023: 121368.
[15]	于杨. 轻稀土元素改性Cu-ZnO-Al₂O₃催化剂对CO₂加氢制甲醇反应的催化性能[J]. 石油化工, 2016, 45(1): 24-30.
	YU Yang. Cu-ZnO-Al₂O₃ catalyst modify with light rare earth elements for CO₂ hydrogenation to methanol[J]. Petrochemical Technology, 2016, 45(1): 24-30.
[16]	XIE H, YUE H, ZHU J, et al. Scientific and engineering progress in CO₂ mineralization using industrial waste and natural minerals[J]. Engineering, 2015, 1(1): 150-157. doi: 10.15302/J-ENG-2015017

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[7]	HU Yongle,HAO Mingqiang. Development characteristics and cost analysis of CCUS in China [J]. Reservoir Evaluation and Development, 2020, 10(3): 15-22.
[8]	Wang Jian,Qin Da,Yu Heng,Xu Peng,Hu Yuhan. Optimization of parameters and microscopic mechanism study of flue gas foam [J]. Reservoir Evaluation and Development, 2018, 8(6): 33-38.

Application and research progress of CO2 capture and utilization technology

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Application and research progress of CO₂ capture and utilization technology