關鍵字查詢 | 類別:期刊論文 | | 關鍵字:Computational Fluid Dynamics-Based Multiobjective Optimization for Catalyst Design

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序號 學年期 教師動態
1 99/1 化材系 張 煖 教授 期刊論文 發佈 Computational Fluid Dynamics-Based Multiobjective Optimization for Catalyst Design , [99-1] :Computational Fluid Dynamics-Based Multiobjective Optimization for Catalyst Design期刊論文Computational Fluid Dynamics-Based Multiobjective Optimization for Catalyst DesignCheng, Shueh-Hen; Chang, Hsuan; Chen, Yih-Hang; Chen, Hsi-Jen; Chao, Yung-Kang; Liao, Yu-Hsiang淡江大學化學工程與材料工程學系Washington: American Chemical SocietyIndustrial & Engineering Chemistry Research 49(21), pp.11079–11086For an industrial secondary methane steam reformer with regular packing, catalyst design is accomplished by an integrated optimization approach, which includes the design of experiment, computational fluid dynamics (CFD) simulation, a response surface method, and a genetic algorithm, for multiobjective optimization. Both spherical and cylindrical catalysts are studied. The reactor performance considered for the catalyst design includes the pressure drop and hydrogen production, which constitute the binary objective functions for optimization. The optimal solutions reveal that a large pore diameter, near 1 μm
2 99/1 化材系 陳逸航 副教授 期刊論文 發佈 Computational fluid dynamics-based multiobjective optimization for catalyst design , [99-1] :Computational fluid dynamics-based multiobjective optimization for catalyst design期刊論文Computational fluid dynamics-based multiobjective optimization for catalyst designCheng, Shueh-Hen; Chang, Hsuan; Chen, Yih-Hang; Chen, Hsi-Jen; Chao, Yung-Kang; Liao, Yu-Hsiang淡江大學化學工程與材料工程學系暨研究所Washington: American Chemical SocietyIndustrial and Engineering Chemistry Research 49, pp. 11079–11086For an industrial secondary methane steam reformer with regular packing, catalyst design is accomplished by an integrated optimization approach, which includes the design of experiment, computational fluid dynamics (CFD) simulation, a response surface method, and a genetic algorithm, for multiobjective optimization. Both spherical and cylindrical catalysts are studied. The reactor performance considered for the catalyst design includes the pressure drop and hydrogen production, which constitute the binary objective functions for optimization. The optimal solutions reveal that a large pore diameter, near 1 µm,
3 99/1 化材系 陳錫仁 教授 期刊論文 發佈 Computational Fluid Dynamics-Based Multiobjective Optimization for Catalyst Design , [99-1] :Computational Fluid Dynamics-Based Multiobjective Optimization for Catalyst Design期刊論文Computational Fluid Dynamics-Based Multiobjective Optimization for Catalyst DesignCheng, Shueh-Hen; Chang, Hsuan; Chen, Yih-Hang; Chen, Hsi-Jen; Chao, Yung-Kang; Liao, Yu-Hsiang淡江大學化學工程與材料工程學系Washington: American Chemical SocietyIndustrial & Engineering Chemistry Research 49(21), pp.11079–11086For an industrial secondary methane steam reformer with regular packing, catalyst design is accomplished by an integrated optimization approach, which includes the design of experiment, computational fluid dynamics (CFD) simulation, a response surface method, and a genetic algorithm, for multiobjective optimization. Both spherical and cylindrical catalysts are studied. The reactor performance considered for the catalyst design includes the pressure drop and hydrogen production, which constitute the binary objective functions for optimization. The optimal solutions reveal that a large pore diameter, near 1 μm
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