CO_(2) capture using membrane contactors:a systematic literature review  被引量:1

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作  者:Sanaa Hafeez Tayeba Safdar Elena Pallari George Manos Elsa Aristodemou Zhien Zhang S.M.Al-Salem Achilleas Constantinou 

机构地区:[1]Division of Chemical and Energy Engineering,School of Engineering,London South Bank University,London SE10AA,UK [2]Medical Research Council Clinical Trials Unit,University College London,London WC1V 6LJ,UK [3]Department of Chemical Engineering,University College London,London WCIE 7JE,UK [4]William G.Lowrie Department of Chemical and Biomolecular Engineering,The Ohio State University,Columbus,OH 43210,USA [5]Environment&Life Sciences Research Centre,Kuwait Institute for Scientific Research,Safat 13109,Kuwait [6]Department of Chemical Engineering Cyprus University of Technology,Limassol 3036,Cyprus

出  处:《Frontiers of Chemical Science and Engineering》2021年第4期720-754,共35页化学科学与工程前沿(英文版)

摘  要:With fossil fuel being the major source of energy,CO_(2) emission levels need to be reduced to a minimal amount namely from anthropogenic sources.Energy consumption is expected to rise by 48%in the next 30 years,and global warming is becoming an alarming issue which needs to be addressed on a thorough technical basis.Nonetheless,exploring CO_(2) capture using membrane contactor technology has shown great potential to be applied and utilised by industry to deal with post-and pre-combustion of CO_(2).A systematic review of the literature has been conducted to analyse and assess CO_(2) removal using membrane contactors for capturing techniques in industrial processes.The review began with a total of 2650 papers,which were obtained from three major databases,and then were excluded down to a final number of 525 papers following a defined set of criteria.The results showed that the use of hollow fibre membranes have demonstrated popularity,as well as the use of amine solvents for CO_(2) removal.This current systematic review in CO_(2) removal and capture is an important milestone in the synthesis of up to date research with the potential to serve as a benchmark databank for further research in similar areas of work.This study provides the first systematic enquiry in the evidence to research further sustainable methods to capture and separate CO_(2).

关 键 词:CO_(2)capture preferred reporting items for systematic reviews and meta-analysec membranc contactor ABSORBENT 

分 类 号:TQ051[化学工程]

 

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