Gas separation performance of tapered cascade with membrane.
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概要
- 論文の詳細を見る
Membrane gas separation cascades are analyzed at steady state. The methods of calculating the flow rate and concentration profiles in the cascade are examined, using formulas expressing the various membrane separation cell characteristics. The method adopted is applicable to relatively high concentrations and separation factors. Consider-ations are further given on the steady state performance of four theoretical forms of cascade : (a) with common value of cut for all stages, (b) with symmetric separation cells, (c) with no mixing at the junction at each stage, and (d) ideal cascade.<BR>The analysis showed that, with membrane cells, the ideal cascade would have a pressure ratio varying from stage to stage. The symmetric separation cascade would provide a separation performance lower than the ideal cascade on account of the mixing at the junctions of streams possessing different concentrations, whereas the cut and separation factor of the no-mixing cascade requiring minimum membrane area exhibits zig-zag curves when plotted against stage number. Both these circumstances contribute to the lower separation performance obtained with these two forms as compared with the ideal cascade, and results in larger total membrane area ; but these semi-ideal forms retain the advantage of easy practical treatment with their pressure ratio common to all stages.
- 一般社団法人 日本原子力学会の論文
著者
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OHNO Masayoshi
Nuclear and Electrical Engineering Laboratory, Toshiba Research and Development Center, Tokyo Shibaura Electric Co., Ltd.
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MIYAUCHI Terukatsu
Department of Chemical Engineering, Tokyo University
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MORISUE Tetsuo
Nuclear and Electrical Engineering Laboratory, Toshiba Research and Development Center, Tokyo Shibaura Electric Co., Ltd.
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OZAKI Osamu
Nuclear and Electrical Engineering Laboratory, Toshiba Research and Development Center, Tokyo Shibaura Electric Co., Ltd.
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