Membranes for CO2 /CH4 and CO2/N2 Gas Separation

Membrane technology has emerged as a leading tool worldwide for effective CO2 separation because of its well‐known advantages, including high surface area, compact design, ease of maintenance, environmentally friendly nature, and cost‐effectiveness. Polymeric and inorganic membranes are generally ut...

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Veröffentlicht in:Chemical engineering & technology Jg. 43; H. 2; S. 184 - 199
Hauptverfasser: Chawla, Muhammad, Saulat, Hammad, Masood Khan, Muhammad, Mahmood Khan, Muhammad, Rafiq, Sikander, Cheng, Linjuan, Iqbal, Tanveer, Rasheed, M. Imran, Farooq, Muhammad Zohaib, Saeed, Muhammad, Ahmad, Nasir M., Khan Niazi, Muhammad Bilal, Saqib, Sidra, Jamil, Farrukh, Mukhtar, Ahmad, Muhammad, Nawshad
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Frankfurt Wiley Subscription Services, Inc 01.02.2020
Schlagworte:
Carbon dioxide
CO2 separation
Composite membranes
Fillers
Flue gas
Gas membranes
Gas mixtures
Gas separation
Gases
Membranes
Methane
Mixed‐matrix membranes
Natural gas
Permeability
Selectivity
ISSN:0930-7516, 1521-4125
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Zusammenfassung:Membrane technology has emerged as a leading tool worldwide for effective CO2 separation because of its well‐known advantages, including high surface area, compact design, ease of maintenance, environmentally friendly nature, and cost‐effectiveness. Polymeric and inorganic membranes are generally utilized for the separation of gas mixtures. The mixed‐matrix membrane (MMM) utilizes the advantages of both polymeric and inorganic membranes to surpass the trade‐off limits. The high permeability and selectivity of MMMs by incorporating different types of fillers exhibit the best performance for CO2 separation from natural gas and other flue gases. The recent progress made in the field of MMMs having different types of fillers is emphasized. Specifically, CO2/CH4 and CO2/N2 separation from various types of MMMs are comprehensively reviewed that are closely relevant to natural gas purification and compositional flue gas treatment Membrane‐based techniques emerged as the most effective option for the separation and/or capture of CO2. Different types of membranes are reviewed with the main emphasis placed on mixed‐matrix membranes with various types of fillers. Such membranes combine the advantages of both polymeric and inorganic membranes and exhibit the best performance for CO2 separation from natural gas and other flue gases.
Bibliographie:These authors contributed equally to this work.
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ISSN:0930-7516
1521-4125
DOI:10.1002/ceat.201900375