Mass Transfer Improvement on Double-Pass Laminar Counterflow Concentric Circular Mass Exchangers with External Recycle
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概要
- 論文の詳細を見る
A new external-recycle model at the ends of double-pass concentric circular mass exchangers with uniform wall concentration, demonstrating a considerable mass-transfer efficiency improvement, has been developed and studied theoretically. The effects of the subschannel radius ratio, permeable barrier parameter and recycle ratio on the mass-transfer efficiency improvement as well as on the power consumption increment have been also discussed.
- 社団法人 化学工学会の論文
- 2007-10-01
著者
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Tu Jr-wei
Department Of Chemical And Materials Engineering Tamkang University
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HO Chii-Dong
Department of Chemical and Materials Engineering, Tamkang University
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HO Cheng-Lin
Department of Chemical and Materials Engineering, Tamkang University
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Ho Cheng-lin
Department Of Chemical And Materials Engineering Tamkang University
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Ho Chii-dong
Department Of Chemical And Materials Engineering Tamkang University
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Tu Jr-wei
Energy And Opto-electronic Materials Res. Center Dep. Of Chemical And Materials Engineering Tamkang
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Ho Chii-dong
Dep. Of Chemical And Materials Engineering Tamkang Univ.
関連論文
- Multiple-Pass Flow Mass Transfer in a Parallel-Plate Channel by Inserting Permeable Barriers for Improved Device Performance
- Mass Transfer Improvement on Double-Pass Laminar Counterflow Concentric Circular Mass Exchangers with External Recycle
- Sinusoidal Wall Fluxes in Double-Pass Laminar Counterflow Concentric-Tube Mass Exchangers
- Mass Transfer Efficiency of Membrane Solvent Extraction in Laminar Cocurrent Flow in Concentric Circular-Tube Modules
- The Effect of Recycle on Double-Pass Laminar Counterflow Concentric Circular Mass Exchangers
- Improvement in Performance of Double-Flow Laminar Countercurrent Mass Exchangers
- An Analytical Study of Mass Transfer Efficiency in Double-Pass Parallel-Plate Mass Exchangers under Uniform Wall Fluxes
- Improvement in Performance of Double-Pass Concentric Circular Mass Exchangers
- Modeling and Simulation of Double-Pass Parallel-Plate Mass Exchangers under Asymmetric Wall Concentrations