關鍵字查詢 | 類別:會議論文 | | 關鍵字:CFD study of heat transfer enhanced membrane distillation using spacer-filled channels

[第一頁][上頁]1[次頁][最末頁]目前在第 1 頁 / 共有 03 筆查詢結果
序號 學年期 教師動態
1 103/2 化材系 何啟東 教授 會議論文 發佈 CFD study of heat transfer enhanced membrane distillation using spacer-filled channels , [103-2] :CFD study of heat transfer enhanced membrane distillation using spacer-filled channels會議論文CFD study of heat transfer enhanced membrane distillation using spacer-filled channelsChang, Hsuan; Hsu, Jian-An; Chang, Cheng-Liang; Ho, Chii-Dong淡江大學化學工程與材料工程學系Computational fluid dynamics; Membrane distillation; Heat transfer; SpacersMasdar Institute of Science and TechnologyProceeding of The 7th International Conference on Applied EnergyMasdar Institute of Science and TechnologyMembrane distillation (MD) can utilize low level thermal energy and holds high potential to replace conventional energetically intensive separation technologies. Direct contact membrane distillation (DCMD) is suitable for the applications of desalination and concentration of aqueous solutions. Employing spacer-filled channels can enhance the mass flux of the DCMD modules, which can further result in the increase of energy utilization efficiency of the separation. The trans-membrane mass flux is controlled by the boundar
2 103/2 化材系 張正良 教授 會議論文 發佈 CFD study of heat transfer enhanced membrane distillation using spacer-filled channels , [103-2] :CFD study of heat transfer enhanced membrane distillation using spacer-filled channels會議論文CFD study of heat transfer enhanced membrane distillation using spacer-filled channelsChang, Hsuan; Hsu, Jian-An; Chang, Cheng-Liang; Ho, Chii-Dong淡江大學化學工程與材料工程學系Computational fluid dynamics; Membrane distillation; Heat transfer; SpacersMasdar Institute of Science and TechnologyProceeding of The 7th International Conference on Applied EnergyMasdar Institute of Science and TechnologyMembrane distillation (MD) can utilize low level thermal energy and holds high potential to replace conventional energetically intensive separation technologies. Direct contact membrane distillation (DCMD) is suitable for the applications of desalination and concentration of aqueous solutions. Employing spacer-filled channels can enhance the mass flux of the DCMD modules, which can further result in the increase of energy utilization efficiency of the separation. The trans-membrane mass flux is controlled by the boundar
3 103/2 化材系 張 煖 教授 會議論文 發佈 CFD study of heat transfer enhanced membrane distillation using spacer-filled channels , [103-2] :CFD study of heat transfer enhanced membrane distillation using spacer-filled channels會議論文CFD study of heat transfer enhanced membrane distillation using spacer-filled channelsChang, Hsuan; Hsu, Jian-An; Chang, Cheng-Liang; Ho, Chii-Dong淡江大學化學工程與材料工程學系Computational fluid dynamics; Membrane distillation; Heat transfer; SpacersMasdar Institute of Science and TechnologyProceeding of The 7th International Conference on Applied EnergyMasdar Institute of Science and TechnologyMembrane distillation (MD) can utilize low level thermal energy and holds high potential to replace conventional energetically intensive separation technologies. Direct contact membrane distillation (DCMD) is suitable for the applications of desalination and concentration of aqueous solutions. Employing spacer-filled channels can enhance the mass flux of the DCMD modules, which can further result in the increase of energy utilization efficiency of the separation. The trans-membrane mass flux is controlled by the boundar
[第一頁][上頁]1[次頁][最末頁]目前在第 1 頁 / 共有 03 筆查詢結果