關鍵字查詢 | 類別:期刊論文 | | 關鍵字:Multi-objective optimization of mixed membrane reactors for autothermal reforming of methane

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1 107/1 化材系 陳逸航 副教授 期刊論文 發佈 Multi-objective optimization of mixed membrane reactors for autothermal reforming of methane , [107-1] :Multi-objective optimization of mixed membrane reactors for autothermal reforming of methane期刊論文Multi-objective optimization of mixed membrane reactors for autothermal reforming of methaneHsuan Chang; Yih-Hung Chen; Yun-Tsz Chen; Chii-Dong HoMethane Reforming;Membrane Reactor;Mixed Membrane Reactor;Multi-objective OptimizationJournal of Applied Science and Engineering 21(3), p.485-495Autothermal reforming (ATR) of methane, which supplies the heat for endothermic steam reforming by internal combustion of methane, is an important process for synthetic gas production. The axial-distributed feeding of oxygen via a packed bed inert membrane reactor (MR) can reduce the peak temperature and improve the reactor performance. A modified MR, called mixed membrane reactor (MMR), combines permeable membrane tube wall and non-permeable tube wall provides extra degrees of freedom for reactor design and operation. For MR and MMR, this study presents the ternary-objective optimization analysis for maxi
2 107/1 化材系 張 煖 教授 期刊論文 發佈 Multi-objective optimization of mixed membrane reactors for autothermal reforming of methane , [107-1] :Multi-objective optimization of mixed membrane reactors for autothermal reforming of methane期刊論文Multi-objective optimization of mixed membrane reactors for autothermal reforming of methaneHsuan Chang; Yih-Hung Chen; Yun-Tsz Chen; Chii-Dong HoMethane Reforming;Membrane Reactor;Mixed Membrane Reactor;Multi-objective OptimizationJournal of Applied Science and Engineering 21(3), p.485-495Autothermal reforming (ATR) of methane, which supplies the heat for endothermic steam reforming by internal combustion of methane, is an important process for synthetic gas production. The axial-distributed feeding of oxygen via a packed bed inert membrane reactor (MR) can reduce the peak temperature and improve the reactor performance. A modified MR, called mixed membrane reactor (MMR), combines permeable membrane tube wall and non-permeable tube wall provides extra degrees of freedom for reactor design and operation. For MR and MMR, this study presents the ternary-objective optimization analysis for maxi
3 107/1 化材系 何啟東 教授 期刊論文 發佈 Multi-objective Optimization of Mixed Membrane Reactors for Autothermal Reforming of Methane , [107-1] :Multi-objective Optimization of Mixed Membrane Reactors for Autothermal Reforming of Methane期刊論文Multi-objective Optimization of Mixed Membrane Reactors for Autothermal Reforming of MethaneHsuan Chang; Yih-Hung Chen; Yun-Tsz Chen; Chii-Dong HoMethane Reforming;Membrane Reactor;Mixed Membrane Reactor;Multi-objective Optimization淡江理工學刊 21(3), p.485-495Autothermal reforming (ATR) of methane, which supplies the heat for endothermic steam reforming by internal combustion of methane, is an important process for synthetic gas production. The axial-distributed feeding of oxygen via a packed bed inert membrane reactor (MR) can reduce the peak temperature and improve the reactor performance. A modified MR, called mixed membrane reactor (MMR), combines permeable membrane tube wall and non-permeable tube wall provides extra degrees of freedom for reactor design and operation. For MR and MMR, this study presents the ternary-objective optimization analysis for maximizing hydrogen production rate, non
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