面向二氧化碳捕集的过程强化技术进展

被引:21
|
作者
李函珂 [1 ]
党成雄 [2 ]
杨光星 [1 ]
曹永海 [1 ]
王红娟 [1 ]
彭峰 [2 ]
余皓 [1 ]
机构
[1] 华南理工大学化学与化工学院
[2] 广州大学化学化工学院
来源
化工进展 | 2020年 / 12期
基金
广东省自然科学基金;
关键词
二氧化碳捕集; 二氧化碳利用; 制氢; 过程耦合; 过程强化;
D O I
10.16085/j.issn.1000-6613.2020-0840
中图分类号
X701 [废气的处理与利用];
学科分类号
摘要
化石能源的大量燃烧在推进人类工业化进程的同时也使当今世界面临愈发严峻的气候变化和环境问题。为降低大气中日益增长的CO2浓度并实现《巴黎协定》所设定的2℃目标,CO2捕集技术得到了越来越广泛的关注和研究,其中部分技术已实现了小规模工业化。在持续推进节能减排的背景下,通过CO2捕集对现有工业过程进行强化是CO2捕集技术发展的一个新兴方向,如此不但可提高原有过程的效率和产品品质,还可大幅减少其碳排放,是具有应用前景的技术路线。本文从CO2捕集的主流技术出发,介绍了面向CO2捕集的过程强化技术,重点介绍CO2捕集强化的蒸汽重整制氢过程、水气变换过程和生物质气化过程,以及耦合CO2捕集的CO2加氢过程、CH4干重整过程和化学链燃烧过程,最后还对捕集后CO2的利用与转化技术进行了简介。
引用
收藏
页码:4919 / 4939
页数:21
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共 101 条
  • [1] Syngas production by dry reforming of the mixture of glycerol and ethanol with CaCO3
    Chengxiong Dang
    Shijie Wu
    Guangxing Yang
    Yonghai Cao
    Hongjuan Wang
    Feng Peng
    Hao Yu
    [J]. Journal of Energy Chemistry , 2020, (04) : 90 - 97
  • [2] 化学链技术及其在化石能源转化与二氧化碳捕集领域的应用
    曾亮
    罗四维
    李繁星
    范良士
    [J]. 中国科学:化学, 2012, 42 (03) : 260 - 281
  • [3] Co-production of high quality hydrogen and synthesis gas via sorption-enhanced steam reforming of glycerol coupled with methane reforming of carbonates[J] . Chengxiong Dang,Shijie Wu,Yonghai Cao,Hongjuan Wang,Feng Peng,Hao Yu.Chemical Engineering Journal . 2019
  • [4] Dual functional catalytic materials of Ni over Ce-modified CaO sorbents for integrated CO 2 capture and conversion[J] . Hongman Sun,Jianqiao Wang,Jinhui Zhao,Boxiong Shen,Jeffrey Shi,Jun Huang,Chunfei Wu.Applied Catalysis B: Environmental . 2018
  • [5] Hydrogenation of Inorganic Metal Carbonates: A Review on Its Potential for Carbon Dioxide Utilization and Emission Reduction[J] . Prof. Susanne Lux,Dr. Georg Baldauf‐Sommerbauer,Prof. Matth?us Siebenhofer.ChemSusChem . 2018 (19)
  • [6] Sorption-enhanced water gas shift reaction by in situ CO 2 capture on an alkali metal salt-promoted MgO-CaCO 3 sorbent[J] . Yuanwu Hu,Hongjie Cui,Zhenmin Cheng,Zhiming Zhou.Chemical Engineering Journal . 2018
  • [7] Chemical conversion of carbon dioxide via target metal separation using seawater-derived wastewater
    Kang, Dongwoo
    Yoo, Yunsung
    Park, Jinwon
    Lee, Min-Gu
    [J]. CHEMISTRYSELECT, 2018, 3 (30): : 8628 - 8636
  • [8] CO 2 reduction-conversion to precipitates and morphological control through the application of the mineral carbonation mechanism[J] . Sangwon Park.Energy . 2018
  • [9] Sorption-enhanced methanol steam reforming for hydrogen production by combined copper-based catalysts with hydrotalcites[J] . Tongyichao Qi,Ying Yang,Yijiang Wu,Jin Wang,Ping Li,Jianguo Yu.Chemical Engineering and Processing - Process Int . 2018
  • [10] Direct non-biological CO 2 mineralization for CO 2 capture and utilization on the basis of amine-mediated chemistry[J] . Feng Sha,Hailong Hong,Ning Zhu,Xianshu Qiao,Bosheng Zhao,Liang Ma,Jianbin Zhang.Journal of CO2 Utilization . 2018
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