[1] |
VUUREN D V, 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.
doi: 10.1038/s41558-018-0119-8
|
[2] |
田慧芳. 国际碳中和的进展、趋势及启示[J]. 中国发展观察, 2020(23):72-74.
|
[3] |
袁晓玲, 郗继宏, 李朝鹏, 等. 中国工业部门碳排放峰值预测及减排潜力研究[J]. 统计与信息论坛, 2020,35(9):72-82.
|
|
YUAN Xiaoling, XI Jihong, LI Zhaopeng, et al. A study on carbon emission peak forecast and emission reduction potential of China's industrial sector[J]. Statistics & Information Forum, 2020,35(9):72-82.
|
[4] |
IEA. Global energy review 2020: The impacts of the Covid-19 crisis on global energy demand and CO2 emissions[R]. Paris:IEA, 2020.
|
[5] |
邓旭, 谢俊, 滕飞. 何谓“碳中和”?[J]. 气候变化研究进展, 2021,17(1):107-113.
|
|
DENG Xu, XIE Jun, TENG Fei. What is carbon neutrality?[J]. Climate Change Research, 2021,17(1):107-113.
|
[6] |
王灿, 张雅欣. 碳中和愿景的实现路径与政策体系[J]. 中国环境管理, 2020,12(6):58-64.
|
|
WANG Can, ZHANG Yaxin. Implementation pathway and policy system of carbon neutrality vision[J]. Chinese Journal of Environmental Management, 2020,12(6):58-64.
|
[7] |
刘俊, 杨鑫, 陈彦, 等. 碳中和,离我们还有多远[R]. 北京:中国国际金融股份有限公司, 2020.
|
[8] |
ZHAO R, LIU L, ZHAO L, et al. A comprehensive performance evaluation of temperature swing adsorption for post-combustion carbon dioxide capture[J]. Renewable & Sustainable Energy Reviews, 2019,114:109285.
|
[9] |
科学技术部中国21世纪议程管理中心. 中国碳捕集、利用与封存技术发展路线图(2019)[M]. 北京: 科学出版社, 2019.
|
[10] |
邢晨健, 钱煜, 周燃, 等. 太阳能聚光光伏-余热碳捕集利用方式分析[J]. 华电技术, 2020,42(4):84-88.
|
|
XING Chenjian, QIAN Yu, ZHOU Ran, et al. Analysis of utilization modes combining concentrating photovoltaic power generation and photovoltaic residual heat driving carbon capture[J]. Huadian Technology, 2020,42(4):84-88.
|
[11] |
KHALILPOUR R, ABBAS A. HEN optimization for efficient retrofitting of coal-fired power plants with post-combustion carbon capture[J]. International Journal of Greenhouse Gas Control, 2011,5(2):189-199.
doi: 10.1016/j.ijggc.2010.10.006
|
[12] |
GOTO K, YOGO K, HIGASHII T. A review of efficiency penalty in a coal-fired power plant with post-combustion CO2 capture[J]. Applied Energy, 2013,111:710-720.
doi: 10.1016/j.apenergy.2013.05.020
|
[13] |
张晓娟, 王峰, 李磊, 等. 电厂烟道气CO2变温吸附捕集工艺设计及经济评价[J]. 石油化工, 2018,47(4):368-373.
|
|
ZHANG Xiaojuan, WANG Feng, LI Lei, et al. Design and economic evaluation of temperature swing adsorption process for CO2 capture from power plant flue gas[J]. Petrochemical Technology, 2018,47(4):368-373.
|
[14] |
ZHAO R, LIU L, LI Z, et al. Thermodynamic analysis on carbon dioxide capture by Electric Swing Adsorption (ESA) technology[J]. Journal of CO2 Utilization, 2018,26:388-396.
|
[15] |
ZHAO R, DENG S, LIU Y, et al. Carbon pump: Fundamental theory and applications[J]. Energy, 2017,119:1131-1143.
doi: 10.1016/j.energy.2016.11.076
|
[16] |
CARAM H S, GUPTA R, THOMANN H, et al. A simple thermodynamic tool for assessing energy requirements for carbon capture using solid or liquid sorbents[J]. International Journal of Greenhouse Gas Control, 2020,97:102986.
doi: 10.1016/j.ijggc.2020.102986
|
[17] |
ZHAO R, ZHAO L, DENG S, et al. A comparative study on CO2 capture performance of vacuum-pressure swing adsorption and pressure-temperature swing adsorption based on carbon pump cycle[J]. Energy, 2017,137:495-509.
doi: 10.1016/j.energy.2017.01.158
|
[18] |
TLILI N, GRÉVILLOT G, VALLIÈRES C. Carbon dioxide capture and recovery by means of TSA and/or VSA[J]. International Journal of Greenhouse Gas Control, 2009,3(5):519-527.
doi: 10.1016/j.ijggc.2009.04.005
|
[19] |
YUAN Y, ROCHELLE G T. Lost work: A comparison of water-lean solvent to a second generation aqueous amine process for CO2 capture[J]. International Journal of Greenhouse Gas Control, 2019,84:82-90.
doi: 10.1016/j.ijggc.2019.03.013
|
[20] |
ZHANG J, WEBLEY P A, XIAO P. Effect of process parameters on power requirements of vacuum swing adsorption technology for CO2 capture from flue gas[J]. Energy Conversion and Management, 2008,49(2):346-356.
doi: 10.1016/j.enconman.2007.06.007
|
[21] |
GUPTA T, GHOSH R. Rotating bed adsorber system for carbon dioxide capture from flue gas[J]. International Journal of Greenhouse Gas Control, 2015,32:172-188.
doi: 10.1016/j.ijggc.2014.10.020
|