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助理教授張志彰

國立成功大學工程科學系博士

次世代空調系統-溫濕度獨立控制、前瞻冷凍空調節能技術、熱質傳分析、計算流體力學CFD、微奈米流體與能源


07-7172930#7622
ccchang@nknu.edu.tw

專長及研究領域

次世代空調系統-溫濕度獨立控制、前瞻冷凍空調節能技術、熱質傳分析、計算流體力學CFD、微奈米流體與能源

學歷

國立成功大學工程科學系博士

經歷

助理教授,國立勤益科技大學 冷凍空調與能源系

研究員,工業技術研究院 綠色能源與環境研究所

博士後研究,日本東京大學 工程學院 應用化學系

博士後研究,國立成功大學 工程科學系

博士後研究,國立成功大學 海洋環境暨工程技術中心

榮譽及獲獎

1.第二十屆全國計算流體力學學術研討會-張貼論文獎

2.第十一屆全國計算流體力學學術研討會-最佳論文獎

3.第二十八屆中華民國力學會議第八屆學生論文競賽 熱流能源組第一名

著作

國際期刊論文:

1.  Chang, C.-C, Luo, W.-J., Lu, C.-W., Cheng, Y.-S., Tsai, B.-Y. and Lin, Z.-H. “Effects of process air conditions and switching cycle period on dehumidification performance of desiccant-coated heat exchangers,” Science and Technology For the Built Environment (formerly as HVAC&R Research), 2017, 23, 81-89. (SCI)

2.  Kuan, Y.-D., Luo, W.-J., Chang, C.-C., Wellid, I., Zheng, Z.-Y. and Chen, C.-N. “Fuel concentration and operating temperature effects on critical amounts of catalysts added to the fuel channels of direct methanol fuel cell,” Digest Journal of Nanomaterials and Biostructures, 2016, 11, 1327-1341. (SCI)

3.  Yeh, H.-C., Chang, C.-C. and Yang, R.-J., “Ion-size effect on electrokinetic energy conversion in nanofluidic channels,” International Journal of Green Energy, 2016, 13, 1050-1058. (SCI)

4.  Kuan, Y.-D., Luo, W.-J., Chang, C.-C., Kuo, Y.-C., Cheng, G.-C. and Chen, C.-N. “Performance analysis of direct methanol fuel cells by coating different proportions of catalysts onto fuel channels,” Digest Journal of Nanomaterials and Biostructures, 2016, 11, 651-662. (SCI)

5. Yeh, H.-C., Chang, C.-C. and Yang, R.-J., “Electro-osmotic pumping and ion-concentration polarization based on conical nanopores,” Physical Review E, 2015, Vol.91, 062302. (SCI)

6.  Yeh, H.-C., Wang M., Chang, C.-C., Yang, R.-J., “ Fundamentals and modeling of electrokinetic transport in nanochannels,” Israel Journal of Chemistry, 2014, Vol.54, 1533-1555(SCI)


7.  Yeh, H.-C., Chang, C.-C. and Yang, R.-J., “Reverse electrodialysis in conical-shaped nanopores: salinity gradient-driven power generation,” RSC Advances, 2014, Vol.4, 2705-2714. (SCI)

8.  Chang, C.-C., Kazoe, Y., Morikawa, K., Mawatari, K., Yang, R.-J. and Kitamori, T., “Numerical simulation of proton distribution with electric double layer in extended nanospaces,” Analytical Chemistry, 2013, Vol.85, 4468-4474. (SCI)

9.  Chiu, P.-H, Chang, C.-C. and Yang, R.-J., “Electrokinetic micromixing of charged and non-charged samples near nano-microchannel junction,” Microfluidics and Nanofluidics, 2013, Vol.14, 839-844. (SCI)

10.  Kazoe, Y., Chang, C.-C., Mawatari, K. and Kitamori, T., “Reply to the comment to “Development of measurement technique for ion distribution in extended nanochannel by super resolution-laser induced fluorescence”,” Analytical Chemistry , 2012Vol.84, 10855-10855. (SCI)

11. Chang, C.-C., Yang, R.-J., Wang, M., Miau, J.-J., and Lebiga, V., “Liquid flow retardation in nanospaces due to electroviscosity: Electrical double layer overlap, hydrodynamic slippage and ambient atmospheric CO2 dissolution,” Physics of Fluids, 2012, Vol.24, 072001 (23 pages). (SCI)

12.  Chang, C.-C., Yeh, C.-P. and Yang, R.-J., “Ion concentration polarization near microchannel-nanochannel interfaces: effect of pH value”, Electrophoresis, 2012, Vol. 33, 758-764. (SCI)

13. Chang, C.-C.* and Yang, R.-J., “Electrokinetic energy conversion efficiency in ion-selective nanopores,” Applied Physics Letters, 2011, Vol.99, 083102 (3 pages) (SCI)

14. Chang, C.-C and Yang, R.-J., “Electrokinetic energy conversion in micro-meter length nanofluidic channels,” Microfluidics and Nanofluidics, 2010, Vol.9, pp.225-241  (SCI)

15.  Wang, M, Chang, C.-C. and Yang, R.-J., “Electroviscous effects in nanofluidic channels,” Journal of Chemical Physics, 2010, Vol. 132, 024701 (6 pages) (SCI)

16. Chang, C.-C and Yang, R.-J., “A perspective on streaming current in silica nanofluidic channels: Poisson-Boltzmann model versus Poisson-Nernst-Planck model,” Journal of Colloid and Interface Science, 2009, Vol. 339, pp.517-520 (SCI)

17. Chang, C.-C and Yang, R.-J., “Chaotic mixing in electro-osmotic flows driven by spatiotemporal surface charge modulation,” Physics of Fluids, 2009, Vol. 21, 052004 (15 pages) (SCI)

18.  Chang, C.-C. and Yang, R.-J., “Chaotic mixing in a microchannel utilizing periodically switching electro-osmotic recirculating rolls,”  Physical Review E, 2008, Vol.77, 056311 (10 pages) (SCI)

19. Chang, C.-C. and Yang, R.-J., “Hydrodynamic focusing effect on two-unmixed-fluid in microchannels,” International Journal of Nonlinear Sciences and Numerical Simulation, 2008, Vol.9, pp.213-220 (SCI)

20.  Chang, C.-C. and Yang, R.-J., “Electrokinetic mixing in microfluidic systems,” Microfluidics and Nanofluidics, 2007, Vol.3, pp.501-525 (SCI)

21.  Chang, C.-C., Huang, Z.-X. and Yang, R.-J., “Three-dimensional hydrodynamic focusing in two-layer PDMS microchannels,” Journal of Micromechanics and Microengineering, 2007, Vol.17, pp.1479-1486 (SCI)

22.  Chang, C.-C. and Yang, R.-J., “A particle tracking method for analyzing chaotic electroosmotic flow mixing in 3-D microchannels with patterned charged surfaces,” Journal of Micromechanics and Microengineering, 2006, Vol.16, pp.1453-1462 (SCI).

23. Lee, G.-B., Chang, C.-C., Huang, S.-B. and Yang, R.-J., “The hydrodynamic focusing effect insides rectangular microchannels,” Journal of Micromechanics and Microengineering, 2006, Vol. 16, pp.1024-1032 (SCI)

24.   Yang, R.-J., Chang, C.-C., Huang, S.-B. and Lee, G.-B., “A new focusing model and switching approach for electrokinetic flow inside microchannels,” Journal of Micromechanics and Microengineering, 2005, Vol.15, pp.2141-2148 (SCI)

25.  Yang, R.-J., Tseng, T.-I and Chang. C.-C., “End effects on electroosmotic flows in microchannels,” Journal of Micromechanics and Microengineering, 2005, Vol.15, pp.254-262 (SCI)

26.   Chang, C.-C. and Yang, R.-J., “Computational analysis of electrokinetically-driven flow mixing in microchannels with patterned blocks,”Journal of Micromechanics and Microengineering, 2004, Vol.14, pp. 550-558 (SCI)

中文期刊論文

1. 張志彰, 賴慶智, 黃馨儀, 吳信賢, “薄膜式電滲透除濕技術,” 燃燒季刊, 第22卷, 第3期, 2013年8月.

2. 楊瑞珍, 張志彰, “奈米管道內之電動特性應用於能量轉換之研究,” 工程科技通訊, 第125卷, 83-86頁, 2012年3月.

書籍章節

1.  Chang, C.-C., Fu, L.-M. and Yang R.-J., “Active mixer,” Encyclopedia of Microfluidics and Nanofluidics, Springer Verlag, 2008.

2.  Yang R.-J., Chang, C.-C., Chen, J.-K, and Pan, Y.-J., “Microfluidic sample manipulation,” Encyclopedia of Microfluidics and Nanofluidics, Springer Verlag, 2008 . 

國際會議

國際研討會論文:


1.  Chang, C.-C. and Huang, W.-H., “Ion transport in self-assembled 2D nanofluidic channels constructed by graphene oxide sheets cross-linked with glyoxal and ethylenediamine monomers, ” 70th Annual Meeting of the APS Division of Fluid Dynamics (DFD), Denver, Colorado, USA, November 19-21, 2017.

2.  Morikawa, K., Kazoe Y., Chang, C.-C., Tsukahara, T., Mawatari, K and Kitamori, T., “Investigation of liquid properties in extended nanospaces using streaming potential/current system,” 68th Annual Meeting of the APS Division of Fluid Dynamics (DFD), Boston, Massachusetts, USA, November 22-24, 2015.

3.  Morikawa, K., Kazoe Y., Chang, C.-C., Tsukahara, T., Mawatari, K and Kitamori, T., “Measurement of electric conductivity of water in extended nanospace using streaming potential/current,” The 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015), Gyeongju, Korea, October 25-29, 2015.

4.  Yeh, H.-C., Chang, C.-C.* and Yang, R.-J., “Ion-size effect on electrokinetic energy conversion in nanofluidic channels,” 10th Annual Green Energy Conference (IGEC-X)Taichuang, Taiwan, May 24-25, 2014.

5.  森川響二郎, 嘉副裕, Chang, C.-C., 馬渡和真, 塚原剛彦, 北森武彦, “流動電位法による拡張ナノ空間の溶液物性評価,”Tokyo, Japan, May 22-23, 2014.

6.  嘉副裕, Chang, C.-C., 馬渡和真, 北森武彦, “拡張ナノ空間のイオン分布に関する研究,” 第33回キャピラリー電気泳動シンポジウム, Tokyo, Japan, November 13-15, 2013.

7. Chang, C.-C., Yang, R.-J., Miau, J.-J., and Lebiga, V., “Liquid flow retardation in charged nanochannels due to electroviscosity,” Taiwan-Russia Bilateral Symposium on Mechanical Engineering, Hsinchu, Taiwan, November 8-9, 2011.

8.  Chang, C.-C. and Yang, R.-J., “Effective electrokinetic mixing in a microfluidic device,” 7th International Symposium on Nano-Biomedical Engineering, Tainan, Taiwan, October 16-17, 2008.

9. Chang, C.-C. and Yang, R.-J., “ Chaotic mixing induced by time-wise alternations of electroosmotic recirculating rolls in microchannels, ” ASME Micro/Nanoscale Heat Transfer International Conference, Tainan, Taiwan, January 6-9, 2008.

10. Chang, C.-C., Huang, Z.-H., and Yang, R.-J., “Numerical and experimental investigation of three-dimensional hydrodynamic focusing in PDMS microchannels,” NSTI Nanotech 2007, Santa Clara, CA, USA, May 20-24, 2007.

11.  Chang, C.-C., Huang, S.-B., Lee, G.-B. and Yang, R.-J., “Two-dimensional symmetric / asymmetric hydrodynamic flow focusing in rectangular microchannels,” 10th International Conference on Flow Analysis, Porto, Portugal, September, 2006.

12. Chang, C.-C. and Yang, R.-J., “Electroosmotic flow chaotic mixing in 3-D microchannels with patterned charged surface”, International Electrokinetics Conference, Nancy, France, June 2006.

13.   Chang, C.-C. , and Yang, R.-J., “Electroosmotic flow chaotic mixing in three-dimensional microchannels with patterned charged surface,” The 2th International Symposium on Micro and Nano technology, Hsinchu, Taiwan, March 29-31, 2006.

14.   Yang, R.-J. , and Chang, C.-C., “Enhancement of electrokinetically-driven flow mixing in 3-D microchannel using heterogeneous surfaces,” ASME International Mechanical Engineering Congress and RD&D Expo. 2004, Anaheim, CA, USA, Nov. 13-19, 2004.

15.  Yang, R.-J., Fu, L.-M., Lee, G.-B., and Chang, C.-C. ,“Dispersion control in microfluidic bio-chips by localized zeta potential variation,” Materials Research Society (MRS) Spring Meeting, San Francisco, April 21-25, USA, 2003.

國內會議

國內研討會論文:

1. 張志彰, 賴慶智, 羅以伶, 黃馨儀, 吳信賢, “電滲透除濕效能之理論評估分析,” 中國機械工程年會暨全國學術研討會, 宜蘭, 台灣,  2013年12月6-7日.
2.  Yeh, H.-C., Chang, C.-C., and Yang, R.-J., “Reverse electrodialysis in conical nanopores: salinity gradient-driven power generation,” The 20th National Conference on Computational Fluid Dynamics, Nantou, Taiwan, August 21-23, 2013. (張貼論文獎)

3.  Chang, C.-C., Huang, S.-B., Lee, G.-B. and Yang, R.-J., “A study on electrokinetic focusing and switching effects,” The 28th Conference on Theoretical and Applied Mechanics, Taipei, Taiwan, December 3-4, 2004 (The Winner of the Student Paper Contest in Thermal-Fluid-Energy Group)

4.  Yang, R.-J. and Chang, C.-C., “Enhancement of electrokinetic flow mixing in three dimensional microchannels using heterogeneous surface charge,” The 11th  National Conference on Computational Fluid Dynamics, Taitung, Taiwan, August 5-7, 2004 (Best Paper Award)

5.  Lee, C.-Y., Fu L.-M., Yang, R.-J., Chang, C.-C., and Lee, G.-B.,“Micro-fabricated electrokinetically-driven mixer by localized zeta potential variation,” The 27th Conference on Theoretical and Applied Mechanics, Tainan, Taiwan ,December 12-13, 2003.

6.  Chang, C.-C. and Yang, R.-J., “Analysis of mixing mechanism of electro-osmotic flows in microchannels,” The 10th National Conference on Computational Fluid Dynamics, Hua-Lien, Taiwan, August 14-16, 2003.

研究計畫

  1. 自組裝二維氧化石墨烯奈米流體通道電動傳輸現象及其應用於能源轉換之研究 (科技部) 計畫主持人 (105/10~107/07)
  2. 特殊防潮乾燥裝置之除濕設計與分析 (宏誠科儀有限公司) 計畫主持人 (106/04~107/03)
  3. 金城廠第三生產線機電工程性能分析 (順晟科技企業有限公司) 計畫主持人 (105/09~105/12)
  4. 經濟部能源局產業中小能源用戶節能診斷服務中心(EDC)-106年度產業中小能源用戶節能推廣計畫 (台灣綠色生產力基會) 共同主持人 (106/01~106/12)
  5. 105年度能源科技課程教學模組與推廣計畫-冷凍空調節能科技教學模組課程計畫 (教育部) 協同主持人 (105/06~107/01)
  6. 經濟部能源局產業中小能源用戶節能診斷服務中心(EDC)-105年度產業中小能源用戶節能推廣計畫 (台灣綠色生產力基會) 共同主持人 (105/05~105/11)
  7. 環控菇類栽培場務工程師招募式培訓 (工業技術研究院) 共同主持人 (105/08~105/11)

國立高雄師範大學工業科技教育系


地址:高雄市燕巢區深中路62號
電話:07-7172930轉7601或7602或7604
FAX:07-6051206
系信箱 tc@nknu.edu.tw

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