TY - JOUR EP - 199 SN - 09307516 PB - Wiley-VCH Verlag SP - 184 TI - Membranes for CO2 /CH4 and CO2/N2 Gas Separation N1 - cited By 66 AV - none VL - 43 UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075436611&doi=10.1002%2fceat.201900375&partnerID=40&md5=a8afd732a88cb94b23f6c6c1542261f9 JF - Chemical Engineering and Technology A1 - Chawla, M. A1 - Saulat, H. A1 - Masood Khan, M. A1 - Mahmood Khan, M. A1 - Rafiq, S. A1 - Cheng, L. A1 - Iqbal, T. A1 - Rasheed, M.I. A1 - Farooq, M.Z. A1 - Saeed, M. A1 - Ahmad, N.M. A1 - Khan Niazi, M.B. A1 - Saqib, S. A1 - Jamil, F. A1 - Mukhtar, A. A1 - Muhammad, N. Y1 - 2020/// KW - Air purification; Carbon dioxide; Composite membranes; Cost effectiveness; Economic and social effects; Fillers; Flue gases; Gases; Mechanical permeability; Membrane technology; Natural gas; Polymers KW - CO2 separation; Flue gas treatment; Gas membranes; Gas separations; High permeability; High surface area; Inorganic membranes; Mixed matrix membranes KW - Gas permeable membranes ID - scholars13513 IS - 2 N2 - 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. © 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim ER -