封面图片
2015年, 第9卷 第2期
(See Kathryn A. MUMFORD, Yue WU, Geoffrey W. STEVENS. pp 125-141)
The capture of carbon dioxide (CO2) from large point sources and subsequent storage underground, utilization for enhanced oil recovery processes or use in chemical synthesis, is essential if CO2 emissions to the atmosphere are to be reduced in the short term. Amongst all CO2 capture technologies currently available, solvent absorption is regarded as the most likely to be used in this large scale application, primarily due to the maturity of the technology and history of successful industrial application. Before widespread implementation is likely, the cost of CO2 capture needs to be reduced. This will be achieved through the development of improved solvents that exhibit; higher CO2 absorption capacities; faster reaction kinetics; limited degradation; and reduced regeneration energies. Here, a timely review of the progress of various solvents for the capture of CO2, from the bench scale, to pilot scale and on to commercial scale installations is provided.[展开] ...
ISSN 2095-0179 (Print)
ISSN 2095-0187 (Online)
CN 11-5981/TQ
Postal Subscription Code 80-969 Formerly Known as Frontiers of Chemical Science and Engineering in China 2018 Impact Factor: 2.809