185. A molecular sieve carbon membrane for continuous process gas separation

The preparation of unsupported and supported carbon molecular sieve membrances has been studied. It proved impossible to prepare a continuous membrane, but measurements of the mass iransfer of gases showed that diffusion across the membranes occurred both in the gas phase within large interstices an

A feasibility study was conducted to explore the potential application of carbon molecular sieve membranes (CMSMs) in biofuel separation through pervaporation. ''Defect-free'' carbon/ceramic composite membranes were prepared as the separation barrier for the dehydration of ethanol. The supported CMS

Carbon molecular sieving (CMS) membranes have been found to have exceptional gas separation properties with high-purity feeds. The basic nature of the carbon itself, however, makes these membranes vulnerable to compounds typically found in industrial process streams. Because of their organophilic na

Carbon-based molecular sieve (CMS) films for gas separation have been deposited on porous Al 2 O 3 disks using hexamethyldisiloxane (HMDSO) by a remote inductively-coupled-plasma (ICP) chemical vapor deposition (CVD) method. The H 2 /N 2 selectivities of the as-deposited films falled into the range

Carbon molecular sieving membranes are new, high-performance materials for gas separations. The selectivities of these membranes are much higher than those typically found with polymeric materials, and the selectivities are achieved without sacrificing productivity. Ultramicroporous carbon membrane