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irregular membrane packing caused the efficiency to decrease with increasing relative humidity and decreasing Vs/Vt ratio, resulting in the membrane’s performance to be lower than predicted. We also determined that the interfacial resistances had little impact on the rate of mass transport, which was impeded mostly by diffusional limitations. Conversely, the rate of heat transport was mostly affected by interfacial resistances and not thermal conductivity limitations within the membrane. Efforts could be made to generate a more uniform flow distribution pattern to improve transport by orienting the membrane vertically, and perhaps utilizing a baffle system on the shell side. In order for design of future membrane systems capable of handling large throughputs it is important to generate a uniform flow pattern in the shell side. 125PDF Image | TEMPERATURE SWING ADSORPTION COMPRESSION AND MEMBRANE SEPARATIONS
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