Effects of Catalyst Amount, Membrane Tube Diameter and Permeation Rate on the Performance of Porous Membrane Reactors
スポンサーリンク
概要
- 論文の詳細を見る
Effects of catalyst amount, membrane tube diameter, and permeation rate on porous membrane reactor performance were investigated through experiments and simulations. Porous Vycor glass membrane reactors were used in the experiment. To study the effect of catalyst amount, permeation side of a membrane reactor was filled with the same catalyst as that used in the feed side, i.e. 0.5 wt% Pt/Al2O3. The Ω, that is, a volume fraction of a catalyst in the permeation side was varied from 0% to 100%. It was observed that overall conversion increases with the Ω value. To study the effect of membrane tube diameter on the performance of a modified porous membrane reactor (MPMR), experiment and simulation using different membrane tube diameters were conducted. The results show that there are optimum membrane tube diameter to achieve maximum conversion. It also reveals that in an MPMR, membrane surface area and ratio of VT/VS are more important than membrane thickness. In order to study the effect of permeation rate, some simulations were conducted. The results show that permeation rate significantly affects the performance of porous membrane reactors. By designing appropriate parameters, it is possible to achieve high purity organic product in the permeation side of MPMR.
- 社団法人 化学工学会の論文
著者
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KOKUGAN Takao
Department of Chemical Engineering, Tokyo University of Agriculture and Technology
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Kokugan T
Tokyo Univ. Agriculture And Technol. Koganei Jpn
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Kokugan Takao
Department Of Chemical Engineering Faculty Of Technology Tokyo University Of Agriculture And Technol
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Kokugan Takao
Department Of Chemical Engineering Faculty Of Engineering Tokyo University Of Agriculture And Techno
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Kokugan Takao
Tokyo University Of Agriculture And Technology Department Of Chemical Engineering
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TRIANTO Azis
Department of Chemical Engineering, Faculty of Engineering, Tokyo University of Agriculture and Tech
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Trianto Azis
Department Of Chemical Engineering Faculty Of Industrial Technology Bandung Institute Of Technology
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Trianto Azis
Department Of Chemical Engineering Faculty Of Engineering Tokyo University Of Agriculture And Techno
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