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計畫案:(95~98學年度)

計畫年度/主持人

計畫名稱

補助單位

計畫金額

95/張朝欽

光聚合法製備聚亞醯胺-無機氧化物混成薄膜及其在光學元件的應用

國科會

673,000

97/張朝欽

聚亞醯胺-奈米金奈米複合薄膜:製備、特性與光學應用

國科會

778,000

98/張朝欽

太陽能驅動式海水淡化系統之設計研發與經濟評估-太陽能吸收塗膜之研製與集熱效果之測試(II)

國科會

908,000

98/張朝欽

奈米材料混成溶膠製備與應用技術

中山科學研究院

600,000

98/張朝欽

抗紫外線及紅外線表面塗佈加工技術研究

紡織產業綜合研究所

600,000

98/張煖

新能源系統發展計畫

美騰能源集團(TANG ENERGY GROUP, LTD.)

1,655,000

98/張煖

太陽能驅動式海水淡化系統之設計研發與經濟評估-具太陽能吸收功能之氣隔式薄膜蒸餾系統-設計與經濟評估(II)

國科會

768,000

98/張煖

應用微技術之燃料電池燃料處理系統的模擬分析與最佳化(I)

國科會能源科技研究計畫

475,000

97/鄭東文

太陽能驅動式海水淡化系統之設計研發與經濟評估-薄膜蒸餾程序中鹽水濃度對薄膜結垢的影響及其改善(I)

國科會

801,000

98/鄭東文

太陽能驅動式海水淡化系統之設計研發與經濟評估-薄膜蒸餾程序中鹽水濃度對薄膜結垢的影響及其改善(II)

國科會

988,000

95/何啟東

太陽能工程應用於薄膜分離技術在海水淡化的理論與實驗之研究

國科會

915,000

96/何啟東

太陽能驅動式滲透蒸發程序與薄膜蒸餾程序於有機廢水中的溶劑回收之研究

國科會

1,074,000

96/何啟東

化學品純化製程應用研究

中山科學研究院

580,000

97/何啟東

太陽能驅動式海水淡化系統之設計研發與經濟評估-高效率太陽能集熱設備輔助式薄膜蒸餾程序(I)

國科會

962,000

98/何啟東

太陽能驅動式海水淡化系統之設計研發與經濟評估-高效率太陽能集熱設備輔助式薄膜蒸餾程序(II)

國科會

1,223,000

 

 

13,000,000

 

已發表論文:

  1. C.-C. Chang* and C.-H. Chang, (2009), “Preparation and characterization of polyurethane-gold nanocomposites prepared using encapsulated gold nanoparticles”, Polym. Int., in press. (SCI, EI) (NSC 96-2221-E-032-030)
  2. C.-C. Chang*, L.-P. Cheng, F.-H. Huang, C.-F. Hsieh, W.-H. Wang (2010), “Preparation and characterization of TiO2 hybrid sol for UV-curable high-refractive-index organic-inorganic hybrid thin films”, J. Sol-Gel Sci. Techn., accepted. (SCI, EI)
  3. Chang H., G.-B. Wang, Y.-H. Chen, C.-C. Li, C.-L. Chang, “Modeling and optimization of a solar driven membrane distillation desalination system,” paper in press, Renewable Energy (SCI, EI).
  4. Chang, H., J.-S. Liau, C.-D. Ho, W.-H. Wang, 2009 Oct., “Simulation of membrane distillation modules for desalination by developing user's model on Aspen Plus platform,” Desalination (SCI, EI), Vol. 249, pp. 380~387.
  5. Cheng, S.-H., H.-J. Chen, H. Chang, C.-K. Chang, Y.-M. Chen, 2008 Mar., “Multi-objective optimization for two catalytic membrane reactors - methanol synthesis and hydrogen production,” Chemical Engineering Science (SCI, EI), Vol. 63, No. 6, pp. 1428~1437.
  6. Hsueh, C.L., C.H. Liu, B.H. Chen, C.Y. Chen, Y.C. Kuo, K.J. Hwang and J.R. Ku (2009), “Regeneration of Spent-NaBH4 Back to NaBH4 by Using High-Energy Ball Milling,” International Journal of Hydrogen Energy, Vol.34, pp.1717-1725. (EI, SCI)
  7. Liu, C.H., B.H. Chen, C.L. Hsueh, J.R. Ku, F. Tsau and K.J. Hwang (2009), “Preparation of magnetic cobalt-based catalyst for hydrogen generation from alkaline NaBH4 solution,” Applied Catalysis B-Environmental, Vol.91, No.1-2, pp.368-379. (EI, SCI)
  8. 薛展立, 谷傑人, 曹芳海, 鄭名山, 郭怡嘉, 黃國楨, “粉體機械力化學在儲氫材料的應用”, 化工技術, 第17卷, 第4期, 92-105頁 (2009).
  9. C.H. Liu, Y.C. Kuo, B.H. Chen, C.L. Hsueh, K.J. Hwang, J.R. Ku, F. Tsau, M.S. Jeng (2010), “A novel method to fabricate solid-state NaBH4/Co-based catalyst composite for hydrogen storage through high energy ball milling process,” International Journal of Hydrogen Energy, in press. (SCI, IF= 3.452, 2008, # 5/67 in ENERGY & FUELS Category)
  10. R. M. Wu and K. J. Li “Increasing Filtrate Flux of Crossflow Filtration with Side Stream,” Separation Science and Technology, 2009/12/31 accepted. (2009). 
  11. Chii-Dong Ho, Yu-Chuan Chuang and Jr-Wei Tu, 2008, Recycle Effect on Double-Pass Concentric Circular Mass Exchangers under Uniform Wall Fluxes, Chemical Engineering & Technology, 31(11), 1638-1644. 美國 (SCI,EI).
  12. Chii-Dong Ho, Jr-Wei Tu, Yu-Jui Chuang and Ching-Jung Chuang, 2008, Recycle Effect on Heat-Transfer Efficiency Improvement in a Double-Pass Parallel-Plate Heat Exchanger under Uniform Wall Fluxes, Int. Comm. Heat Mass Transfer, 35(4), 1344-1349. 美國 (SCI,EI).
  13. Chii-Dong Ho, Jun-Wei Huang and Jr-Wei Tu, 2008, Heat Transfer Prediction of Recycle Effect for Improved Device Performance in Cool-Thermal Discharge Systems, Numerical Heat Transfer, Part A: Applications, 54, 709-725. 美國 (SCI,EI)
  14. Chii-Dong Ho, Jr-Wei Tu and Li-Chien Liu, 2008, Sinusoidal Wall Fluxes in Double-Pass Laminar Counterflow Concentric-Tube Mass Exchangers, J. Chem. Eng. Japan, 41, 1083-1095. 日本 (SCI,EI).
  15. Chii-Dong Ho, Jr-Wei Tu and Chih-Ming Yang, 2009, Conjugated Heat Transfer in Double-Pass Laminar Counterflow Concentric-Tube Heat Exchangers with Sinusoidal Wall Fluxes, Int. J Heat Mass Transfer, 52, 45-55. 美國 (SCI,EI).
  16. H. M. Yeh and Chii-Dong Ho, 2009, Effect of external recycle on the performances of flat-plate solar air heaters with internal fins attached, Renewable Energy, 34, 1340-1347. 美國 (SCI,EI).
  17. T. C. Chen, Chii-Dong Ho and H. M. Yeh, 2009, Theoretical modeling and experimental analysis of direct contact membrane distillation, J. Membrane Sci., 330, 279-287. 美國 (SCI,EI).
  18. Chii-Dong Ho, H. M. Yeh, T. W. Cheng, T. C. Chen and R. C. Wang, 2009, The influences of recycle on baffled double-pass flat-plate solar air heaters with internal fins attached, Applied Energy, 86(9), 1470-1478. 美國 (SCI,EI).
  19. Chii-Dong Ho, Wei-Zum Chen and Jr-Wei Tu, 2009, Asymmetric Wall Heat Fluxes Boundary Conditions in Double-Pass Parallel-Plate Heat Exchangers, Int. J. Heat Mass Transfer, 52, 3555-3563. 美國 (SCI,EI).
  20. Chii-Dong Ho, Tsung-Lieh Hsien, Hsuan Chang, Jr-Wei Tu and Chih-Ming Yang, 2009, The Influences of Recycle on a Double-Pass Laminar Counterflow Concentric-Tube Heat Exchangers with Sinusoidal Wall Fluxes, Int. Comm. Heat Mass Transfer, 36, 579-584. 美國 (SCI,EI).
  21. Chii-Dong Ho, Shih-Cheng Yeh, Jia-Jan Guo and Jr-Wei Tu, 2009, Performance Improvement in a Concentric Circular Heat Exchanger with External Recycle under Uniform Wall Fluxes, Tamkang J. Sci. Eng., 12, 231-238. 中華民國 (EI).
  22. Chii-Dong Ho, Po-Chun Lee and Jr-Wei Tu, 2009, Mass Transfer Enhancement in Double-Pass Parallel-Plate Mass Exchangers under Asymmetric Wall Fluxes, Chemical Engineering & Technology, 32(10), 1567-1577. 美國 (SCI,EI).
  23. Chii-Dong Ho, Jr-Wei Tu, Gow-Bin Wang, Wei-Chi Lai and Wei-Zum Chen, 2010, Recycle Effect on Heat Transfer Enhancement in Double-Pass Parallel-Plate Heat Exchangers under Asymmetric Wall Fluxes, Int. Comm. Heat Mass Transfer, 37, 274-280. 美國 (SCI,EI).
  24. Chii-Dong Ho, Ho-Ming Yeh, Jia-Jan Guo, Jr-Wei Tu and Ching-Jung Chuang, 2010, Optimal Design of Continuous Double-Pass Thermal-Diffusion Columns with External Recycle, Progress in Nuclear Energy, 52, 425-434. 美國 (SCI,EI).
  25. Ching-Jung Chuang, Kuo-Lun Tung, Yang-Hsiang Fan, Chii-Dong Ho, and James Huang, 2009, Performance Evaluation of ePTFE and PVDF Flat-sheet Module Direct Contact Membrane Distillation, Water Sci Tech., (In Press). 美國 (SCI,EI).
  26. Ho-Ming Yeh, 2010, Enrichment of heavy water in flat-plate thermal-diffusion columns with optimal plate aspect ratio, Progress in Nuclear Energy, 52, 327-331.
  27. Ho-Ming Yeh, 2010, Analysis of dialysis in cross-flow parallel-plate membrane modules with feed-stream recycle for improved performance, Chemical Engineering Communications, 197, 455-465.
  28. Ho-Ming Yeh, 2010, Recovery of deuterium from water-isotopes in thermal diffusion columns connected in series, Progress in Nuclear Energy, (In Press).
  29. Ho-Ming Yeh and Zheng-XiuTsai, 2010, optimum number of columns for enrichment of heavy water by thermal diffusion in the Frazier scheme at fixed sum of column heights, Journal of the Taiwan Institute of Chemical Engineers, 41, 49-53.
  30. Ho-Ming Yeh, 2009, Recovery of deuterium from the separation of H-D gas mixture in concentric-tube thermal diffusion columns with transverse sampling streams, Fusion Engineering and Design, 84, 2174-2177.
  31. Ho-Ming Yeh and Liu-Yi Chen, 2009, Enrichment of heavy water in thermal-diffusion columns connected in series, Nuclear Engineering and Design, 239, 2825-2831.
  32. Ho-Ming Yeh, 2009, Theory of recovery of deuterium from water-isotopes mixture in spiral wired thermal diffusion columns of the Frazier scheme, Nuclear Engineering and Design, 239, 2265-2271.
  33. Ho-Ming Yeh, 2009, Recovery of deuterium from water-isotope mixture by thermal diffusion in countercurrent-flow flat-plate Frazier scheme with optimum plate spacing, Progress in Nuclear Energy, (In Press).
  34. Ho-Ming Yeh, 2009, Estimation of deuterium recovery from the separation of water isotopes in thermal-diffusion columns of a countercurrent-flow frazier scheme with optimal plate aspect ratio, Progress in Nuclear Energy, 51, 658-662.
  35. Ho-Ming Yeh, 2009, Influences of design parameters on performance in batch-type inclined-plate thermal diffusion columns, Journal of the Taiwan Institute of Chemical Engineers, 40, 424-430.
  36. Ho-Ming Yeh, 2009, Optimal plate aspect ratio for the enrichment of heavy water from water-isotope mixture in a flat-plate thermal diffusion column with transverse sampling streams, Nuclear Engineering and Design, 239, 1254-1259.

 

 

實驗設備:

平板式與真空管式太陽能集熱設備1 平板式與真空管式太陽能集熱設備2
圖1 平板式與真空管式太陽能集熱設備

太陽光模擬器
圖2 太陽光模擬器

薄膜蒸餾及太陽能輔助式薄膜蒸餾設備1 薄膜蒸餾及太陽能輔助式薄膜蒸餾設備2
圖3 薄膜蒸餾及太陽能輔助式薄膜蒸餾設備

全通道式太陽能熱水集熱器1全通道式太陽能熱水集熱器2
圖4 全通道式太陽能熱水集熱器

 

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