JEFFREY CHI-SHENG WUMartin E.SBhave R.RLiu P.K.TSonnett W.M.2022-11-162022-11-16198905693799https://www.scopus.com/inward/record.uri?eid=2-s2.0-0024714431&partnerID=40&md5=415eb9748383de67b280fb635565fdc3https://scholars.lib.ntu.edu.tw/handle/123456789/625340The superior permselectivity of microporous ceramic membranes commercially available are ideal as supports for catalytic membrane reactors, which can overcome the catalytic conversion limited by thermodynamic equilibrium. Dehydrogenation reactions are the focus of our study. Gas permeations using ceramic membranes with or without catalysts are presented. Conversion enhancement for dehydrogenation is discussed with mathematical simulation and experimental results.Catalysts--Supported; Gases--Separation; Mathematical Models; Membranes--Permeability, Mechanical; Organic Compounds--Dehydrogenation; Abstract Only; Composite Ceramic Membranes; Microporous Ceramic Membranes; Permselectivity; Ceramic Materialsconference paper2-s2.0-0024714431