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王逸君

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副教授
姓名 王逸君 (Yi-Chun Wang)
組別 熱流科學與能源組
教授室 機械系館七樓91717
分機 62125
傳真機 (06) 2352973
電子信箱 wangyc@mail.ncku.edu.tw
個人網站
學歷
  1. 國立台灣大學機械工程學系學士
  2. 國立台灣大學應用力學研究所碩士
  3. 加州理工學院 (California Institute of Technology ) 機械工程博士
經歷
  1. 國防部中山科學研究院助理研究員
  2. 加州理工學院助教及研究助理
  3. 國立成功大學講師
  4. 國立成功大學助理教授
專長
  1. 熱流科學。
  2. 工程兩相流(Engineering Two-Phase Flows)之理論、分析及實驗。
  3. 汽泡流bubbly flows及空蝕流cavitating flows之基本動力特性及其在工程上的應用。
  4. 超音波空蝕之理論、實驗及應用。
  5. 低溫共燒陶瓷 (LTCC) 技術。
  6. 液膜動力學及吸收式冷凍。
教師研究介紹
服務
榮譽
專利
著作

A.期刊論文

Yi-Chun Wang* and Ming-Chung Yao, “Realization of cavitation fields based on the acoustic resonance modes in an immersion-type sonochemical reactor,” Ultrasonics Sonochemistry, DOI 10.1016/j.ultsonch.2012.07.026 (2012) (SCI,5-year Impact Factor: 3.83, Ranking 1/30=3.3% in Acoustics)(NSC 97-2221-E-006-226)

Yi-Chun Wang*, Hung-Yi Chen and Yu-Ying Hsiao, “Experimental study of the flow rectification performance of conical diffuser valves,” Acta Mechanica, 219, 15-27 (2011) (SCI,5-year Impact Factor: 1.192, Ranking 70/133=52.6% in Mechanics) (NSC 94-2212-E006-100)

Yi-Chun Wang* and Chia-Sheng Chuang, “Development of an electrohydraulic liquid shock tube,” Journal of Chinese Society of Mechanical Engineers, 31(6), 485-492 (2010) (SCI,Impact Factor: 0.548, Ranking 69/116=59.5% in Engineering-Mechanical) (NSC 92-2212-E-006-046)

Yi-Chun Wang*, Shin-Hang Lin and Darry Jang, “Unsteady analysis of the flow rectification performance of conical microdiffuser valves for valveless micropump applications,” Journal of Mechanics, 26, 299-307 (2010) (SCI, 5-yearImpact Factor: 0.489, Ranking 113/133=84.9% in Mechanics)(NSC 94-2212-E-006-100)

Wang, Y.-C.*, Hsu, J.-C., Kuo, P.-C. and Lee, Y.-C., “Loss characteristics and flow rectification property of diffuser valves for micropump applications,” International Journal of Heat and Mass Transfer, 52, 328-336(2009)(SCI,5-year Impact Factor: 2.423, Ranking 8/122=6.6% in Engineering-Mechanical)(NSC 93-2212-E-006-060)

Wang, Y.-C.*and Chen, Y.-W., “Application of piezoelectric PVDF film to the measurement of impulsive forces generated by cavitation bubble collapse near a solid boundary,” Experimental Thermal and Fluid Science, 32 (2), 403-414 (2007). (SCI,5-year Impact Factor: 1.552, Ranking 28/122=22.9% in Engineering-Mechanical) (NSC 89-2212-E-006-100)

Wang, Y.-C.*, Huang, C.H., Lee, Y.-C. and Tsai, H.-H., “Development of a PVDF sensor array for measurement of the impulsive pressure generated by cavitation bubble collapse,” Experiments in Fluids,41, 365-373 (2006).(SCI,5-year Impact Factor: 1.817, Ranking 12/116=10.3% in Engineering-Mechanical)(NSC 91-2212-E-006-154)

Wang, Y.-C.* and Chen, E., “Effects of phase relative motion on critical bubbly flows through a converging-diverging nozzle,” Physics of Fluids, 14(9), 3215-3223 (2002). (SCI, 5-year Impact Factor: 2.056, Ranking 17/123=13.8% in Mechanics) (NSC 87-2212-E-006-059)

Wang, Y.-C.* and Lee, M.-W. “The application of a Lagrangian integral method on the nonlinear dynamics of a spherical cavitating bubble cloud,” Chinese Journal of Mechanics, Series B, 17(1), 21-26 (2001). (SCI, EI)

Wang, Y.-C.* “Stability analysis of one-dimensional steady cavitating nozzle flows with bubble size distribution,” ASME Journal of Fluids Engineering, 122, 425-430 (2000). (SCI, 5-year Impact Factor: 0.784, Ranking 59/116=50.9% in Engineering-Mechanical) (NSC 87-2212-E-006-059)

Wang, Y.-C.* “Effects of nuclei size distribution on the nonlinear dynamics of a spherical cloud of cavitation bubbles,” ASME Journal of Fluids Engineering, 121, 881-886 (1999). (SCI, 5-year Impact Factor: 0.784, Ranking 59/116=50.9% in Engineering-Mechanical) (NSC 88-2212-E-006-032)

Wang, Y.-C.* and Brennen, C.E. “Numerical computation of shock waves in a spherical cloud of cavitation bubbles,” ASME Journal of Fluids Engineering, 121, 872-880 (1999). (SCI, 5-year Impact Factor: 0.784, Ranking 59/116=50.9% in Engineering-Mechanical) (NSC 87-TPC-E-006-009)

Wang, Y.-C. and Brennen, C.E. “One-dimensional bubbly cavitating flows through a converging-diverging nozzle,” ASME Journal of Fluids Engineering, 120, 166-170 (1998). (SCI, 5-year Impact Factor: 0.784, Ranking 59/116=50.9% in Engineering-Mechanical) (NSC 86-2621-E-006-039-T)

Reisman, G.E., Wang, Y.-C., and Brennen, C.E. “Observations of shock waves in cloud cavitation,” Journal of Fluid Mechanics, 355, 255-283 (1998). (SCI, 5-year Impact Factor: 2.698, Ranking 9/123=7.3% in Mechanics)

B.研討會論文

Chi-Mo Huang, Ming-Hsun Wu and Yi-Chun Wang, “Development of Meso-ScaleFuel ReformerUsing Low Temperature Co-fired Ceramic Tape Technology,”Proceedings of the11th International Workshops on Micro and Nanotechnology for PowerGeneration and Energy Conversion Applications(PowerMEMS 2011), pp. 427-430 (2011)(NSC 98-2221-E-006-169-MY2)

蕭逸宏、黃立民、許豪驛、戴嘉佑、王逸  ”溴化鋰液膜之超音波量測及其在吸收式冷凍系統上之應用,”學生論文競賽佳作,中華民國力學學會第三十五屆全國力學會議(The 35th National Conference on Theoretical and Applied Mechanics),國立成功大學,2011年11月18-19日(NSC 100-2221-E-006-187)

Chi-Mo Huang and Yi-Chun Wang, “Development of a High Performance LTCC Valveless Micropump,” Proceedings of the IMAPS/ACerS 6th International Conference and Exhibition on Ceramic Interconnect and Ceramic Microsystems Technologies (CICMT), 10cicmt024 (2010)(NSC 98-2221-E-006-169-MY2)

Y. H. Hsu and Y. C. Wang, “Application of Genetic Algorithm to the Optimization of a Sonochemical Reactor,” 27th National Conference on Mechanical Engineering of CSME, NTUT, Taipei, December 11 (2010) (NSC 97-2221-E-006-226)

Yi-Chun Wang and Ming-Chung Yao, “Modeling and experiments of a resonant sonochemical reactor,”Proceedings of ASME 2010 3rd Joint US-European Fluids Engineering Summer Meeting(FEDSM2010), August 2-4, Montreal, Canada (2010) (NSC 97-2221-E-006-226)

Wang, Yi-Chun, Huang, Ching-Hung, and Tsai, Ho-Hsun, “Spatial and temporal measurements of the impulsive pressure generated by cavitation bubble collapse near a solid boundary,” 17th International Symposium on Nonlinear Acoustics, July 18-22, State College, Pennsylvania, USA. (2005) (NSC 93-2212-E-006-060)

Wang, Yi-Chun and Chen, Ethan, “Hydrodynamic Effects of Phase Relative Motion on Critical Bubbly Cavitating Flows Through a Converging-Diverging Nozzle,” Fourth International Symposium in Cavitation, Pasadena, California, USA. Paper No.: B5.002 (2001) (NSC 87-2212-E-006-059)

Wang, Y.-C., “Stability analysis of one-dimensional steady cavitating nozzle flows with bubble size distribution,” 1999 ASME/JSME FED Summer Meeting,FED-Vol. 248, paper no. FEDSM99-6751, San Francisco, California, USA. (1999) (NSC 87-2212-E-006-059)

C.專書、技術報告

王逸君:”高性能低溫共燒陶瓷微泵之設計、製作與測試,” 九十八年度國科會專題研究計畫成果報告(NSC 98-2221-E-006-169-MY2)。

王逸君:”用於聲化學之高強度參變超音波束之研製及其特性研究,” 九十七年度國科會專題研究計畫報告(NSC 97-2221-E-006-226)。

王逸君:”高功率雙頻式超音波聲化反應器之研製及應用,” 九十六年度國科會專題研究計畫報告(NSC 96-2212-E-006-169)。

王逸君:”改良式超音波汽泡空蝕法應用於材料細化與養分萃取,” 九十五年度國科會補助提升產業技術及人才培育研究計畫報告(NSC 94-2622-E-006-039-CC3)。

王逸君:”高效能無閥式微泵之研製—微擴流器非穩態性能之分析與實驗,” 九十五年度國科會專題研究計畫報告(NSC 94-2212-E-006-100)。

王逸君:”高效能無閥式微泵之研製:三維微擴流器之製作、性能量測及最佳化(I),” 九十四年度國科會專題研究計畫報告(NSC 93-2212-E-006-060)。

王逸君:”水動力衝壓噴射推進噴嘴之性能分析及優化設計,” 九十四年度國防科技發展方案研究計畫報告(NSC 93-2623-7-006-004)。

王逸君:”用於高壓動態校正之水電式震波管, ” 九十三年度國科會專題研究計畫報告(NSC 92-2212-E-006-046)。

王逸君:”微型壓力感測器陣列之設計、製作、校正及應用, ” 九十二年度國科會專題研究計畫報告(NSC 91-2212-E-006-154)。

    王逸君:”以PVDF壓電感測器陣列探討空蝕汽泡對鄰近物體表面之衝擊機制, ” 九十一
    年度國科會專題研究計畫報告(NSC 90-2212-E-006-165)。