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Computational Fluid Dynamics and Heat Transfer Lab

Representative Papers

Grid Generation

  • Bailey. R.T., Shih, T. I-P., Nguyen, H.L., and Roelke, R.J., “GRID2D3D — A Computer Program for Generating Grid Systems in Complex-Shaped Two- and Three Dimensional Spatial Domains: Part 2 – User's Manual,” NASA Technical Memorandum 102454, 1990.
  • Chi, X., Zhu, B., Shih, T.I-P., Slater, J.W., Addy, H.E., and Choo, Y.K., “Computing Aerodynamic Performance of 2D Iced Airfoils: Blocking Topology and Grid Generation,” AIAA Paper 2002-0381, Aerospace Sciences Meeting, Reno, January 2002.
  • Chyu, W.J., Rimlinger, M.J., and Shih, T.I-P., “A Procedure for Automating CFD Simulations of an Inlet-Bleed Problem,” NASA Workshop on Surface Modelling, Grid Generation, and Related Issues in CFD Solutions,” NASA CP-3291, NASA – Lewis Research Center, May 1995, pp. 731-749.
  • Dolce, J.S. and Shih, T. I-P., “A Solution-Adaptive Algebraic Grid Generation Technique Based on Variational Principles,” X Congresso Ibero-Latino-Americano Sobre Metodos Computacionais em Engenharia, September 25-27, 1989, Portugal.
  • Gu, X. and Shih, T.I-P., “Differentiating between Error Source and Error Location in Solution-Adaptive Mesh Refinement,” AIAA Paper 2001-2660, 15th Computational Fluid Dynamics Conference, Anaheim, June 2001.
  • Gu, X., Hernandez, E., Chu, D., Sun, R., Keller, P., and Shih, T.I-P., “Grid-Quality Measures for Error Estimation of CFD Solutions,” Computational Fluid and Solid Mechanics, Vol. 1, Edited by K.J. Bathe, Elsevier, 2001, pp. 843-846.
  • Gu, X., Schock, H.J., Shih, T.I-P., Hernandez, E.C., Chu, D., Keller, P.S., and Sun, R.L., “Grid-Quality Measures for Structured and Unstructured Meshes,” AIAA Paper 2001-0652, Aerospace Sciences Meeting, Reno, Jan. 2001.
  • Qin, Y. and Shih, T.I-P., “A Discrete Transport Equation for Error Estimation in CFD,” AIAA Paper 2002-0906, Aerospace Sciences Meeting, Reno, January 2002.
  • Qin, Y. and Shih, T.I-P., “A Method for Estimating Grid-Induced Errors in Finite-Difference and Finite-Volume Methods,” AIAA Paper 2003-0845, Aerospace Sciences Meeting, Reno, January 2003.
  • Qin, Y., Chi, X., and Shih, T. I-P., “Estimating Grid-Induced Errors in Navier-Stokes Solutions by Euler Discrete-Error-Transport Equations,” AIAA Paper 2005-0567, Aerospace Sciences Meeting, Reno, Nevada, January 2005.
  • Shih, T. I-P. and Williams, B., “Development and Evaluation of an à Posteriori Method for Estimating and Correcting Grid-Induced Errors in Solutions of the Navier-Stokes Equations,” AIAA Paper 2009-1499, Jan. 2009.
  • Shih, T. I-P., Bailey. R.T., Nguyen, H.L., and Roelke, R.J., “GRID2D3D — A Computer Program for Generating Grid Systems in Complex-Shaped Two- and Three-Dimensional Spatial Domains: Part 1 – Theory and Method,” NASA Technical Memorandum 102453, 1990.
  • Shih, T. I-P., Lin, Y.-L., Flores, A.J., Stephens, M.A., Rimlinger, M.J., and Willis, B.P., “An Automated CFD Design and Analysis Tool for Inlet-Bleed Systems,” ASME DETC98/CIE-6033, Pittsburgh, Pennsylvania, September 1998.
  • Shih, T.I-P., Bailey, R.T., Nguyen, H.L., and Roelke, R.J., “Algebraic Grid Generation for Complex Geometries,” International Journal for Numerical Methods in Fluids, Vol. 13, 1991, pp. 1-31.
  • Shih, T.I-P., Gu, X., and Chu, D., “Grid-Quality Measures and Error Estimates,” Proceedings of the 7th International Conference on Grid Generation for Computational Field Simulations, September 25-28, 2000.
  • Shih, T.I-P., “Error Estimation in CFD Solutions,” invited plenary keynote, 13th National CFD Conference, Taiwan, August 14, 2006. Proceedings of the 13th National Conference on Computational Fluid Dynamics, August 2006, pp. 1-14.
  • Shih, T.I-P., “Estimating Grid-Induced Errors in CFD Solutions,” Frontiers of Computational Fluid Dynamics 2006, Editors: D.A. Caughey and M. M. Hafez, Chapter 9, World Scientific, Singapore (ISBN: 981-256-527-2), 2005, Chapter 9, pp. 183-198.
  • Shih, T.I-P., “Overset Grids: Fundamental and Practical Issues,” AIAA Paper 2002-3259, an invited paper, Applied Aerodynamics Conference, St Louis, June 2002.
  • Steinthorsson, E., Shih, T.I-P., Schock, H.J., and Stegeman, J., “Calculations of the Unsteady, Three-Dimensional Flow Field inside a Motored Wankel Engine,” SAE 1988 Transactions Journal of Engines, Vol. 97, Section 6, 1988, pp. 6.1160-6.1188.
  • Steinthorsson, E., Shih, T.I-P., and Roelke, R.J., “Enhancing Control of Grid Distribution in Algebraic Grid Generation,” International Journal for Numerical Methods in Fluids, Vol. 15, 1992, pp. 297-311.
  • Steinthorsson, E., Shih, T.I-P., and Roelke, R.J., “GRID2D3D — A Computer Program for Generating Grid Systems in Complex-Shaped Two- and Three-Dimensional Spatial Domains, An Updated Version: GRID3D-v2,” NASA Technical Memorandum 103766, 1991.
  • Stephens, M.A., Rimlinger, M.J., Shih, T.I-P., and Civinskas, K.C., “Chimera Grids in Computing Flow and Heat Transfer in Blade Cooling,” AIAA Journal of Propulsion and Power, Vol. 11, No. 2, 1995, pp. 213-220.

"Navier Stokes" Solvers

  • Afshari, A., Jaberi, F.A., and Shih, T.I-P., “Large-Eddy Simulations of Turbulent Flows in an Axisymmetric Dump Combustor,” AIAA Journal, Vol. 46, No. 7, July 2008, pp. 1576-1592.
  • Dasgupta, A., Shih, T.I-P., Kundu, K.P., and Deur, J.M., “Numerical Simulation of Flow past an Array of Moving Spherical Particles,” AIAA Paper 94-3283, Joint Propulsion Conference, June 27-29, 1994.
  • Karadag, A., Ganjoo, D., Ostergaard, D., and Shih, T. I-P., “A Density-Based Method for Computing Incompressible Multiphase Flows – Part 1: Formulation and Solution Algorithm,” AIAA Paper 2000-0459, Aerospace Sciences Meeting, Jan. 2000.
  • Karadag, A., Ganjoo, D., Ostergaard, D., and Shih, T. I-P., “A Density-Based Method for Computing Incompressible Multiphase Flows – Part 2: Verification and Application,” AIAA Paper 2000-0460, Aerospace Sciences Meeting, Jan. 2000.
  • Li, Z., Jaberi, F., and Shih, T.I-P., “A Hybrid Lagrangian-Eulerian Particle-Level Set Method for Numerical Simulations of Two-Fluid Turbulent Flows,” International Journal for Numerical Methods in Fluids, Vol. 56, Oct. 2007, pp. 2271-2300.
  • Shih, T. I-P. and Dasgupta, A., “A Noniterative Implicit Algorithm for Tracking Particles for Mixed Lagrangian-Eulerian Formulations,” AIAA Journal, Vol. 31, No. 4, 1993, pp. 782-784.
  • Shih, T.I-P. and Chyu, W.J., “Approximate-Factorization with Source Terms,” AIAA Journal, Vol. 29, 1991, pp. 1759-1760.
  • Shih, T.I-P., Steinthorsson, E., and Chyu, W.J., “Implicit Treatment of Diffusion Terms in Lower-Upper Algorithms,” AIAA Journal, Vol. 31, No. 4, 1993, pp. 788-791.
  • Shih, T.I-P., “Modeling Multiphase Flows through Direct Numerical Simulation,” ASME Paper 98-5039, an invited paper, ASME Fluids Engineering Summer Meeting, Washington, D.C., June 1998.
  • Sinclair, G.B., Chi, X., and Shih, T.I-P., “On the Pressure and Stress Singularities Induced by Steady Flows of an Incompressible Viscous Fluid,” Acta Mechanica Sinica, Vol. 25, No. 4, August 2009, pp. 451-462.
  • Steinthorsson, E. and Shih, T.I-P., “Methods for Reducing Approximate-Factorization Errors in Two- and Three-Factored Schemes,” SIAM Journal on Scientific Computing, Vol. 14, No. 5, 1993, pp. 1214-1236.
  • Steinthorsson, E., Li, Z., Shih, T.I-P., Nguyen, H.L., and Willis, E.A., “A Flux-Vector Splitting Algorithm for Chain-Rule Conservation-Law Form,” AIAA Journal, Vol. 29, 1991, pp. 1101-1107.
  • Zhang, W. and Shih, T.I-P., “An Adaptive Downstream Anisotropic Eddy-Viscosity Model for Hybrid RANS/LES Simulations,” AIAA 2017-0977, AIAA Sci Tech, Jan. 2017.

Control of Shock-Wave/Boundary-Layer Interactions by Bleed for External and Mixed Compression Inlets

  • Benson, D., Shih, T.I-P., Davis, D.O., and Willis, B.P., “Boundary Conditions for CFD Simulations of Supersonic Boundary-Layer Bleed through Discrete Holes,” AIAA Paper 2000-0888, Aerospace Sciences Meeting, Jan. 2000.
  • Benson, D.B, Shih, T.I-P., and Davis, D.O., “CFD Simulations of an Axisymmetric Mixed-Compression Inlet with Bleed through Discrete Holes,” ASME Paper FEDSM 2003-45076, 4th ASME/FED & JSME 2003 Joint Fluids Conference, July 6-10, 2003, Honolulu, Hawaii.
  • Benson, D.B., Shih, T.I-P., Davis, D.O., and Willis, B.P., “Bleed Boundary Conditions for CFD Simulations of Supersonic Flows with Embedded Shocks and Boundary-Layer Bleed,” ASME Paper FEDSM-2001-18116, ASME Fluids Engineering Summer Meeting, New Orleans, May 2001.
  • Chyu, W.J., Howe, G.W., and Shih, T.I-P., “Bleed Boundary Conditions for Numerically Simulated Mixed-Compression Supersonic Inlet Flows,” AIAA Paper 88-0270, Aerospace Sciences Meeting, Jan. 11-14, 1988. Also, AIAA Journal of Propulsion and Power, Vol. 8, 1992, pp. 862-868.
  • Chyu, W.J., Rimlinger, M.J., and Shih, T.I-P., “Control of Shock-Wave/Boundary-Layer Interactions by Bleed,” AIAA Journal, Vol. 33, No. 7, 1995, pp. 1239-1247.
  • Flores, A.J., Shih, T.I-P., Davis, D.O., and Willis, B.P., “Bleed of Supersonic Boundary-Layer Flow through Rows of Normal and Inclined Holes,” AIAA Paper 99-2112, Joint Propulsion Conference, June 1999.
  • Hahn, T.O., Shih, T.I-P., and Chyu, W.J., “Numerical Study of Shock-Wave / Boundary-Layer Interactions with Bleed,” AIAA Journal, Vol. 31, No. 5, 1993, pp. 869-876.
  • Lin, Y.-L., Shih, T.I-P., and Willis, B.P., “Control of Shock-Wave/Boundary-Layer Interactions with Passive Blowing and Bleeding,” AIAA Paper 97-3002, Joint Propulsion Conference, July 1997.
  • Lin, Y.-L., Stephens, M.A., Shih, T.I-P., and Willis, B.P., “Effects of Plenum Size on Bleeding a Supersonic Boundary Layer,” AIAA Paper 97-0609, Aerospace Sciences Meeting, Jan. 1997.
  • Rimlinger, M.J., Shih, T.I-P., and Chyu, W.J., “Three-Dimensional Shock-Wave/Boundary-Layer Interactions with Bleed through Rows of Holes,” AIAA Journal of Propulsion and Power, Vol. 12, No. 2, 1996, pp. 217-224.
  • Shih, T.I-P., Rimlinger, M.J., and Chyu, W.J., “Three-Dimensional Shock-Wave/Boundary-Layer Interactions with Bleed,” AIAA Journal, Vol. 31, No. 10, 1993, pp. 1819-1826.
  • Shih, T.I-P., “Control of Shock-Wave/Boundary-Layer Interaction by Bleed,” invited keynote, 9th Asian International Conference on Fluid Machinery (AICFM-9), Paper NO. AICFM9-IL01, Jeju, Korea, October 16-19, 2007. Also, International Journal of Fluid Machinery and System (inaugural issue), Vol. 1, No. 1, Oct.-Dec. 2008, pp. 24-32.
  • Teh, E-J. and Shih, T.I-P., “Reynolds-Averaged Simulations of Shock-Wave/Boundary-Layer Interactions with Bleed,” AIAA Paper 2013-0423 (an invited paper), AIAA Aerospace Sciences Meeting, Jan. 2013.

Aircraft Icing

  • Chi, X., Crist, N., Williams, B., Hindman, R., Kreeger, R.E., and Shih, T.I-P., “2-D and 3-D CFD Simulations of Clean and Iced Wings,” AIAA Paper 2006-1267, Aerospace Sciences Meeting, Reno, Nevada, January 2006.
  • Chi, X., Li, Y., Chen, H., Addy, H.E., Choo, Y.K., and Shih, T.I-P., “A Comparative Study Using CFD to Predict Iced Airfoil Aerodynamics,” AIAA Paper 2005-1371, Aerospace Sciences Meeting, Reno, Nevada, January 2005.
  • Chi, X., Zhu, B., Shih, T.I-P., Addy, H.E., and Choo, Y.K., “CFD Analysis of the Aerodynamics of a Business-Jet Airfoil with Leading-Edge Ice Accretion,” AIAA Paper 2004-0560, Aerospace Sciences Meeting, Reno, January 2004.
  • Chi, X., Zhu, B., Shih, T.I-P., Slater, J.W., Addy, H.E., and Choo, Y.K., “Computing Aerodynamic Performance of 2D Iced Airfoils: Blocking Topology and Grid Generation,” AIAA Paper 2002-0381, Aerospace Sciences Meeting, Reno, January 2002.
  • Hindman, R., Crist, N., Williams, B., Chi, X., and Shih, T.I-P., “Q3D Wing: Validation of a Modern Lifting-Line Method for Clean and Iced Wings,” AIAA Paper 2006-1268, Aerospace Sciences Meeting, Reno, Nevada, January 2006.
  • Williams, B., Lu, P., Shih, T.I-P., “Q3D-Wing for Flight Control of Aircraft with Ice Accretion,” AIAA Paper 2007-503, Aerospace Science Meeting, Reno, Jan. 2007.
  • Zhu, B., Chi, X., Shih, T.I-P., Slater, J.W., Addy, H.E., and Choo, Y., “Computing Aerodynamic Performance of 2-D Iced Airfoils with Structured Grids,” AIAA Paper 2003-1071, Aerospace Sciences Meeting, Reno, January 2003.
  • Zhu, B., Chi, X., Shih, T.I-P., and Slater, J.W., “Computing Aerodynamic Performance of 2D Iced Airfoils: Blocking Strategies and Convergence Rate,” AIAA Paper 2002-3049, Applied Aerodynamics Conference, St Louis, June 2002.

Gas Turbine Heat Transfer and Aerodynamics

Internal Cooling

  • Chi, X., Shih, T.I-P., Bryden, K.M., Chyu, M., Ames, R., and Dennis, R.A., “Effects of Pin-Fin Height on Flow and Heat Transfer in a Rectangular Duct,” ASME Paper GT-2011-46014, June 2011, Vancouver, Canada.
  • Hu, S.-Y., Chi, X., Shih, T.I-P., Bryden, K.M., Chyu, M.K., Ames, R., and Dennis, R.A., “Flow and Heat Transfer in the Tip-Turn Region of a U-Duct under Rotating and Non-Rotating Conditions.” ASME Paper GT-2011-46013, June 2011, Vancouver, Canada.
  • Lee, C.-S., Shih, T.I-P., Bryden, K.M., Ames, R., and Dennis, R.A., “Flow and Heat Transfer in a Jet-Impingement Configuration with No-Cross Flow about Jets,” ASME Paper GT-2012-70080, June 2012, Copenhagen, Denmark.
  • Lin, Y.-L. and Shih, T.I-P., “Flow and Heat Transfer induced by Rows of Hemispherical Cavities,” International Journal of Transport Phenomena, Vol. 3, 2001, pp. 1-11.
  • Lin, Y.-L., Shih, T.I-P., Stephens, M.A., and Chyu, M.K., “A Numerical Study of Flow and Heat Transfer in a Smooth and a Ribbed U-Duct with and without Rotation,” ASME Journal of Heat Transfer, Vol. 123, April 2001, pp. 219-232.
  • Liu, J., Weaver, A., Lee, C.S., Shih, T.I-P., Klinger, J., Ames, R., and Dennis, R.A., “Flow and Heat Transfer in a Triple-Impingement Configuration for Trailing-Edge Cooling,” ASME Paper GT-2012-70075, June 2012, Copenhagen, Denmark.
  • Pardeshi, I., Shih, T.I-P., Bryden, K.M., Ames, R., Dennis, R.A., Ding, S., Xu, G., Deng, H., and Lu, R., “Flow and Heat Transfer in a Rotating and Non-Rotating Wedge-Shaped Cooling Passage with Ribs and Pin Fins,” AIAA Paper 2015-1444, AIAA Sci Tech, Jan. 2015.
  • Shih, T. I-P. and Chyu, M.K., “Computation of Flow and Heat Transfer in a Rotating Passage with Ribs and a U-Bend,” Proceedings of the Tenth International Symposium on Transport Phenomena, Vol. 3, pp. 601-606, 1997.
  • Shih, T.I-P., Lin, Y.-L., and Stephens, M.A., “Flow and Heat Transfer in an Internal Coolant Passage,” International Journal for Rotating Machinery, Vol. 7, No. 5, September 2001, pp351-364.
  • Stephens, M.A., Shih, T.I-P., and Civinskas, K.C., “Computations of Flow and Heat Transfer in a Rotating U-Shaped Square Duct with Smooth Walls,” AIAA Paper 96-3161, Joint Propulsion Conference, July 1996.
  • Stephens, M.A., Shih, T.I-P., and Civinskas, K.C., “Effects of Inclined Rounded Ribs on Flow and Heat Transfer in a Square Duct,” AIAA Paper 95-2115, Thermal Physics Conference, June 19-22, 1995.
  • Stephens, M.A., Shih, T.I-P., “Computations of Flow and Heat Transfer in a Smooth U-Shaped Square Duct with and without Rotation,” AIAA Journal of Propulsion and Power, Vol. 15, No. 2, March-April 1999, pp. 272-279.
  • Weaver, A.M., Liu, J., and Shih, T.I-P., “A Weave Design for Trailing-Edge Cooling,” AIAA Paper 2015-1446, AIAA Sci Tech, Jan. 2015.

Film Cooling

  • Chen, S.P., Chyu, M.K., and Shih, T.I-P., “Effects of Upstream Ramp on the Performance of Film Cooling,” ASME Paper GT2007-28137, Montreal, Canada, May 14-17, 2007. Also, International Journal Thermal Sciences, Vol. 50, June 2011, pp. 1085-1094.
  • Lin, Y.-L. and Shih, T.I-P., “Film Cooling of a Semi-Cylindrical Leading Edge with Injection through Rows of Compound-Angled Holes,” ASME Journal of Heat Transfer, Vol. 123, August 2001, pp. 645-654.
  • Lin, Y.-L. and Shih, T.I-P., “Film Cooling over Flat, Convex, and Concave Surfaces,” AIAA Paper 99-0344, Aerospace Sciences Meeting, January 1999.
  • Na, S. and Shih, T.I-P., “Increasing Film-Cooling Adiabatic Effectiveness by Using an Upstream Ramp,” ASME Paper GT-2006-91163, IGTI Conference and Expo, Barcelona, Spain, May 8-11, 2006. Also, ASME Journal of Heat Transfer, Vol. 129, No. 4, April 2007, pp. 464-471.
  • Na, S., Cunha, F.J., Chyu, M.K., and Shih, T.I-P., “Effects of Coating Blockage and Deposit on Film Cooling Effectiveness and Surface Heat Transfer,” AIAA Paper 2006-0024, Aerospace Sciences Meeting, Reno, Nevada, January 2006.
  • Shih, T.I-P. and Na, S., “Momentum-Preserving Shaped Holes for Film Cooling,” ASME IGTI Paper GT-2007-27600, IGTI Conference and Expo, Montreal, Canada, May 14-17, 2007.
  • Shih, T.I-P., Na, S., and Chyu, M.K., “Prevent Hot-Gas Entrainment by Film-Cooling Jets via Flow-Aligned Blockers,” ASME Paper GT-2006-91161, IGTI Conference and Expo, Barcelona, Spain, May 8-11, 2006.
  • Shih, T.I-P., “Enhancing the Effectiveness of Film Cooling,” invited plenary keynote, 1st International Symposium on Jet Propulsion and Power Generation, Kunming, China, 20 September 2006. Proceedings of the 1st International Symposium on Jet Propulsion and Power Generation, Vol. 1, 2006, pp. 28-34. Also, Journal of Aerospace Power, Vol. 22, No. 4, April 2007, pp. 531-539.
  • Siw, S.C., Chyu, M.K., Shih, T.I-P., and Alvin, M.A., “Effects of Pin Detached Space on Heat Transfer and Pin-Fin Arrays,” ASME J. of Heat Transfer, Vol. 134, No. 8, 2012, pp. 081902-1 to 081902-9.
  • Stratton, Z., Shih, T.I-P., Laskowski, G., Briggs, R., and Barr, B., “Effects of Cross Flow in an Internal-Cooling Channel on Film Cooling of a Flat Plate through Compound-Angle Holes,” ASME Paper GT-2015-42771, Montreal, Canada, June 2015.
  • Yu, Y., Yen, C-H., Shih, T. I-P., Chyu, M.K., and Gogineni, S., “Film Cooling Effectiveness and Heat Transfer Coefficient around Diffusion Shaped Holes,” ASME Journal of Heat Transfer, Vol. 124, No. 5, October 2002, pp. 820-827.
  • Yu, Y., Yen, C.-H., Shih, T. I-P., Chyu, M.K., and Gogineni, S., “Film Cooling Effectiveness and Heat Transfer Coefficient around Diffusion Shaped Holes,” ASME Paper 99-GT-034, June 1999.

Conjugate Heat Transfer

  • Na, S., Dennis, R.A., Alsup, C., Bryden, K.M., Shih, T. I-P., “Effects of Hot-Gas Composition on Temperature Distribution in a Flat Plate Cooled by Internal and Film Cooling,” ASME Paper GT2009-59727, IGTI Conference, Orlando, June 2009.
  • Na, S., Williams, B., Dennis, R.A., Bryden, K.M., and Shih, T. I-P., “Internal and Film Cooling of a Flat Plate with Conjugate Heat Transfer,” ASME IGTI Paper GT-2007-27599, IGTI Conference and Expo, Montreal, Canada, May 14-17, 2007.
  • Shih, T.I-P., Chi, X., Bryden, K.M., Alsup, C., and Dennis, R.A., “Effects of Biot Number on Temperature Distribution in a Flat Plate Cooled by Rib-Enhanced Internal Cooling,” ASME Paper GT2009-59726, IGTI Conference, Orlando, June 2009.

Secondary Flows and Rim Seals

  • Lin, Y.-L. and Shih, T.I-P., “Flow and Heat Transfer in a Turbine Nozzle Guide Vane with Endwall Contouring,” AIAA Paper 2000-3002, 35th Intersociety Energy Conversion Engineering, Las Vegas, July 2000
  • Lin, Y.-L., Shih, T.I-P., Chyu, M.K., and Bunker, R.S., “Effects of Gap Leakage on Fluid Flow in a Contoured Turbine Nozzle Guide Vane,” ASME Paper 2000-GT-0555, IGTI Conference, Munich, May 2000.
  • Liu, J., Weaver, A., Shih, T. I-P., Sangan, C.M., and Lock, G.D., “Modelling and Simulation of Ingress into the Rim Seal and Wheelspace of a Gas-Turbine Rotor-Stator Configuration,” AIAA Paper 2015-1445, AIAA Sci Tech, Jan. 2015.
  • Shih, T. I-P., Lin, Y.-L., and Simon, T.W., “Control of Secondary Flow in Turbine Nozzle Guide Vane by Endwall Contouring,” ASME Paper 2000-GT-0556, IGTI Conference, Munich, May 2000.
  • Shih, T.I-P. and Lin, Y.-L., “Controlling Secondary-Flow Structure by Leading-Edge Airfoil Fillet and Inlet Swirl to Reduce Aerodynamic Loss and Surface Heat Transfer,” ASME Journal of Turbomachinery, Vol. 125, January 2003, pp. 48-56.
  • Zhu, B., Shih, T.I-P., Oke, R., Simon, T.W., and Chyu, M.K., “Computational Study of a Two-Passage Turbine Guide-Vane Cascade with Endwall Contouring,” ASME Paper DETC-CIE 21762, September 2001.

Transient Operations

  • Lee, C.-S., Shih, T.I-P., and Bryden, K.M., “CFD Conjugate Analysis of a Jet-Impingement Configuration with Sudden Changes in Heating and Cooling Loads,” Proceedings of the ASME 2013 International Mechanical Engineering Congress & Exposition, Paper IMECE2013-65542, November 2013, San Diego.
  • Lee, C.-S., Shih, T.I-P., and Bryden, K.M., “Estimating Over Temperature and Its Duration in a Flat Plate with Sudden Changes in Heating and Cooling,” ASME Paper GT-2015-43526, Montreal, Canada, June 2015. Also, ASME Journal of Turbomachinery, Vol. 138, June 2016, 061007-1 to 061007-12.

Fundamental Issues

  • Chi, X. and Shih, T.I-P., “Bulk Temperature, Heat-Transfer Coefficient, and Nusselt Number – Revisited,” AIAA Paper 2012-0807, Jan. 2012, Nashville.
  • Durbin, P.A. and Shih, T.I-P., “An Overview of Turbulence Modeling,” Modelling and Simulation of Turbulent Heat Transfer, Edited by B. Sundén and M. Faghri, WIT Press, Southhampton, 2005, Chapter 1, pp. 3-31.
  • Lee, C.-S., Shih, T.I-P., and Bryden, K.M., “Effects of Averaging the Heat-Transfer Coefficient on the Predicted Material Temperature and Its Gradient,” ASME Journal of Heat Transfer, Vol. 139, Feb. 2017, 022002-1 to 022002-14.
  • Ramachandran, S.G. and Shih, T. I-P., “Biot-Number Analogy for Design of Experiments in Turbine Cooling,” ASME Journal of Turbomachinery, Vol. 137, June 2015, pp. 061002-1 to 061002-14.
  • Sathyanarayanan, S.K. and Shih, T.I-P., “Time-Accurate Conjugate Analysis of Transient Measurements of Heat-Transfer Coefficients,” AIAA Journal of Thermophysics and Heat Transfer, Vol. 31, April 2017, DOI: 10.2514/1.T4723.
  • Shih, T. I-P. and Durbin, P., “Modeling and Simulation of Turbine Cooling,” in Turbine Aerodynamics, Heat Transfer, Materials, and Mechanics, Editors: T. Shih and V. Yang, Progress in Astronautics and Aeronautics, Vol. 243, American Institute of Aeronautics and Astronautics, 2014, pp. 389-421.
  • Shih, T.I-P. and Sultanian, B., “Computations of Internal and Film Cooling,” Heat Transfer in Gas Turbines, Editors: B. Sundén and M. Faghri, WIT Press, Southhampton, 2001, Chapter 5, pp. 175-225.
  • Shih, T.I-P., Gomatam-Ramachandran, S., and Chyu, M.K., “Time-Accurate CFD Conjugate Analysis of Transient Measurements of the Heat-Transfer Coefficient in a Channel with Pin Fins,” Journal of Propulsion and Power Research, Vol. 2, Issue 1, 2013, pp. 10-19. DOI information: http://dx.doi.org: 10.1016/j.jppr.2013.01.003.
  • Shih, T.I-P., Lee, C.-S., and Bryden, K.M., “Scaling Heat-Transfer Coefficients Measured under Laboratory Conditions to Engine-Relevant Conditions,” ASME Paper GT2017-64039, June 2017.

Automotive Related Flows

  • Li, Z., Steinthorsson, E., Shih, T.I-P., and Nguyen, H.L., “Modelling and Simulation of Wankel Engine Flow Fields,” SAE 1990 Transactions Journal of Engines, Vol. 99, Section 3, Part 1, 1990, pp. 138-162.
  • Ramos, J.I., Shih, T.I-P., and Schock, H.J., “Wankel Engine Modelling,” Heat and Mass Transfer in Gasoline and Diesel Engines, Editors: D.B. Spalding and N.H. Afgan, Hemisphere Publishing Co., 1989, pp. 201-214.
  • Shih, T.I-P., Schock, H.J., Nguyen, H.L., and Stegeman, J.D., “Numerical Simulation of the Flowfield in a Motored, Two-Dimensional Wankel Engine,” AIAA Journal of Propulsion and Power, Vol. 3, 1987, pp. 269-276.
  • Steinthorsson, E., Shih, T.I-P., Schock, H.J., and Stegeman, J., “Calculations of the Unsteady, Three-Dimensional Flow Field inside a Motored Wankel Engine,” SAE 1988 Transactions Journal of Engines, Vol. 97, Section 6, 1988, pp. 6.1160-6.1188.

Heat Transfer Issues in Thermoelectric Power Generation

  • Harris, R., Schock, H.J., and Hogan, T., and Shih, T., “Heat Transfer and Electric Current Flow in a Thermoelectric Couple,” AIAA Paper 2006-0575, Aerospace Sciences Meeting, Reno, Nevada, January 2006.
  • Hogan, T. and Shih, T.I-P., “Modeling and Characterization of Power Generation Modules Based on Bulk Materials,” Thermoelectric Handbook: Macro to Nano-Structured Materials, Editor: M. Rowe, Taylor and Francis Books, 2005.
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