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Prof. Hsin-Yi Shih

Hsin-Yi Shih  
 

Professor  and Chairman

Research areas: Combustion and propulsion; Fire research; Fluid and thermal analysis
Laboratory: Combustion and Thermal-fluid Systems Lab
Email: hyshih@mail.cgu.edu.tw
Tel: +886-3-2118800 ext. 5745 (Office), 5728 (Lab)

2200

 
Education:
-  Ph.D.  Mechanical Engineering, Case Western Reserve University, USA  (2000)
- M.S., Mechanical Engineering, Case Western Reserve University, USA  (1997)
- B.S. National Chiao Tung University, Taiwan (1991)
 
Employments:
- 2016-           Professor, Department of Mechanical Engineering, Chang Gung University , Taiwan
- 2010-2015  Associate Professor, Department of Mechanical Engineering, Chang Gung University , Taiwan
- 2004-2009  Assistant Professor, Department of Mechanical Engineering, Chang Gung University, Taiwan
- 2001-2004  Researcher, Center for Aviation and System Technology, Industrial Technology Research Institute, Taiwan
- 2000-2001  Research Associate, Department of Mechanical and Aerospace Engineering, Case Western Reserve University, U.S.A

Professional Memberships:
 
Selected Publications: (Full publication list)
  1. Maaz Ajvad, Hsin-Yi Shih (2019). Combustion Analysis of Syngas Fuels Applied in a Micro Gas Turbine Combustor with a Rotating Casing. Proceedings of the ASME Turbo Expo, paper No. GT2019-90799, V04AT04A049, DOI: https://doi.org/10.1115/GT2019-90799. (EI)
  2. Chi-Rong Liu, Min-Tsung Sun, Hsin-Yi Shih (2018). Model Simulation and Design Optimization of a Can Combustor with Methane/Syngas Fuels for a Micro Gas Turbine. International Journal of Turbo and Jet Engines. DOI: https://doi.org/10.1515/tjj-2017-0057. (SCI, IF=863, 24/31, Engineering: Aerospace)
  3. Kuo-Hsing Yang, Hsin-Yi Shih (2017). NO Formation of Opposed-jet Syngas Diffusion Flames: Strain rate and Dilution Effects. International Journal of Hydrogen Energy, 42: 24517-24531. (SCI, IF=4.084, 31/103, Energy and Fuels)
  4. Chi-Rong Liu, Hsin-Yi Shih (2016). The Design and Model Simulation of a Micro Gas Turbine Combustor Supplied with Methane/Syngas Fuels. Proceedings of the ASME Turbo Expo, paper No. GT2016-56528, DOI: https://doi.org/10.1115/GT2016-56528. (EI)
  5. Chi-Rong Liu, Hsin-Yi Shih (2015). Model Analysis of Syngas Combustion and Emissions for a Micro Gas Turbine. Journal of Engineering for Gas Turbine and Power, vol. 137, 061507, pp1-10. (SCI, IF=1.653, 73/129, Mechanical Engineering)
  6. Hsin-Yi Shih, Chi-Rong Liu (2014). A Computational Study on the Combustion of Hydrogen/Methane Blended Fuels for a Micro Gas Turbine. International Journal of Hydrogen Energy, 39: 15103-15115. (SCI, IF=4.084, 31/103, Energy and Fuels)
  7. Hsin-Yi Shih, Jou-Rong Hsu, Yu-Heng Lin (2014). Computed Flammability Limits of Opposed-jet H2/CO Syngas Diffusion Flames. International Journal of Hydrogen Energy, 39: 3459-3468. (SCI, IF=4.084, 31/103, Energy and Fuels).
  8. Shih, H. Y. and Hsu, J. R., “Dilution Effects Analysis of Opposed-jet H2/CO Syngas Diffusion Flames,” Combustion Theory and Modelling, 17 (3): 543-562, 2013.
  9. Shih, H. Y. and Hsu, J. R., “Computed NOx Emission Characteristics of Opposed-jet Syngas Diffusion Flames,” Combustion and Flame, 159: 1851-1863, 2012.
  10. Shih, H. Y. and Hsu, J. R. “Computed Extinction Limits and Flame Structures of Opposed-jet Syngas Diffusion Flames,” Applied Mechanics and Materials v.110-116, p4899-4906, 2012.
  11. Chang, Y. Z., Hung, K. T., Shih, H. Y., Tsai, Z. R. “Surrogate Neural Network and Multi-objective Direct Algorithm for the Optimization of a Swiss-roll Type Recuperator,” International Journal of Innovative Computing Information and Control, v.8, n12, pp.8199-8241, 2012.
  12. Shih, H. Y. and Hsu, J. R., “A Computational Study of Combustion and Extinction of Opposed-jet Syngas Diffusion Flames,” International Journal of Hydrogen Energy, 36: 15868-15879, 2011.
  13. Shih, H. Y., Liu, C. R., “A Computational Study of hydrogen Substitution Effects on the Combustion performance for a Micro Gas Turbine,” Proceedings of ASME Turbo Expo, v3, pp.713-721, 2011.
  14. Shih, H. Y., Liu, C. R., “Combustion Characteristics and Hydrogen Addition Effects on the Performance of a Can Combustor for a Micro Gas Turbine,” Proceedings of ASME Turbo Expo, v5, pp.271-280, 2010.
  15. Shih, H. Y. and Huang, Y. C., “Thermal Design and Model Analysis of the Swiss-roll Recuperator for an Innovative Micro Gas Turbine,” Applied Thermal Engineering, 29: 1493-1499, 2009.
  16. Shih, H. Y., “Computed Flammability Limits and Spreading Rates of Upward Flame Spread over a Thin Solid in Low-Speed Buoyant Flows,” Combustion Science and Technology, 181: 379-395, 2009.
  17. Shih, H. Y. and Liu, C. R., “Combustion Characteristics of a Can Combustor with a Rotating Casing for an Innovative Micro Gas Turbine,” Journal of Engineering for Gas Turbines and Power, vol. 131, No.4, July, 2009.
  18. Shih, H. Y., “Flame Spread and Interactions in an Array of Thin Solids in Low-Speed Concurrent Flows,” Combustion Theory and Modelling, vol. 13, No. 3: 443-459, 2009.
  19. Shih, H. Y., “Computed Extinction Limits and Flame Structures of H2/O2 Counterflow Diffusion Flames with CO2 Dilution,” International Journal of Hydrogen Energy, 34: 4005-4013, 2009.
  20. Shih, H. Y. and Wu, H. C., “An Experimental Study of Upward Flame Spread and Interactions over Multiple Solid Fuels,” Journal of Fire Sciences, 26: 435-453, 2008.
  21. Chang, Y. Z., Hung, K. T., Shih, H. Y., “Optimizing the Swiss-roll Recuperator of an Innovative Micro Gas Turbine by a Surrogate Neural Network and the Multi-Objective Direct Algorithm,” Proceedings of the ASME Turbo Expo, v1, p713-721, 2008.
  22. Shih, H. Y., Liu, C. R., “Combustion Characteristics of a Can Combustor with a Rotating Casing for an Innovative Micro Gas Turbine,” Proceedings of ASME Turbo Expo, v3, Part A, pp. 21-29, 2008.
  23. Shih, H. Y., Wang, D. and Kuo, C. R., “Feasibility Study of an Innovative Micro Gas Turbine with a Swiss-roll Recuperator,” Proceedings of the ASME Turbo Expo, v5 Part A, p459-466, 2006.
  24. Ferkul, P., Kleinhenz, J., Shih, H. Y. et. al., “Solid Fuel Combustion Experiments in Microgravity Using a Continuous Fuel Dispenser and Related Numerical Simulations,” Microgravity Science and Technology XV/2 pp3-12, 2004.
  25. Kumar, A., Shih, H. Y. and T’ien, J. S., “A Comparison of Extinction Limits and Spreading Rates in Opposed and Concurrent Spreading Flames over Thin Solids,” Combustion and Flames, 132: 667-677, 2003.
  26. Shih, H. Y. and T’ien, J. S., “A Three-Dimensional Model of Flame Spread over a Thin Solid in Low-Speed Concurrent Flow,” Combustion Theory and Modelling, 7: 677-704, 2003.
  27. Feier, I. I., Shih, H. Y., Sacksteder, K. R., and T’ien, J. S. “Upward Flame Spread over Thin Solids in Partial Gravity,” Proceedings of the Combustion Institute 29: 2569-2577, 2002.
  28. Shih, H. Y. and T’ien, J. S., “Modeling Concurrent Flame Spread over a Thin Solid in a Low-Speed Flow Tunnel,” Proceedings of the Combustion Institute 28: 2777-2784, 2000.
  29. Shih, H. Y. and T’ien, J. S., “Modeling Concurrent Flame Spread over a Thin Solid in a Low-Speed Flow Tunnel,” Proceedings of the Combustion Institute 28: 2777-2784, 2000.
  30. Shih, H. Y., Bedir, H., T’ien, J. S., and Sung, C. J., “Computed Flammability Limits of Opposed-Jet H2/O2/CO2 Diffusion Flames at Low Pressure,” Journal of Propulsion and Power, vol. 15, No. 6, November-December, pp. 903-908, 1999.