NASA Logo, National Aeronautics and Space Administration

Research and Technology | NASA Glenn Research Center

Publications

Dr. Meng-Sing Liou

Current as of Feb. 2009

  1. Nagaram, M. and Liou, M.-S., “A Cartesian based body-fitted adaptive grid method for compressible viscous flows,” AIAA Paper 2009-1500, 47th AIAA Aerospace Sciences Meeting, Orlando, FL, Jan. 2009.
  2. Kim, HJ and Liou, M.-S., “New Multi-Objective Genetic Algorithms for Diversity and Convergence Enhancement,” AIAA Paper 2009-1168, 47th AIAA Aerospace Sciences Meeting, Orlando, FL, Jan. 2009.
  3. Lee, B.J. and Liou, M.-S., “Adjoint Based Design Approach for Boundary Layer Ingestion Offset Intake,” AIAA Paper 2009-3804, 19th AIAA CFD Conference, San Antonio, TX, 22-25 June, 2009.
  4. Kim, HJ and Liou, M.-S., “Adaptive Cartesian Sharp Interface Method for Three-Dimensional Multi-Phase Flows,” AIAA Paper 2009-4153,19th AIAA CFD Conference, San Antonio, TX, 22-25 June, 2009.
  5. Chang, C.-H., Theofanous, T.G. and Liou, M.-S., “Numerical Prediction of Interfacial Instabilities: The Sharp Interface Method in Compressible Multiphase Flows,” 10th US National Congress on Computational Mechanics, July 16-19, 2009.
  6. Kim, HJ and Liou, M.-S., “New Multi-Objective Genetic Algorithms with New Sharing Function and Directional Operator,” submitted to IEEE Trans. Evolutionary Computation.
  7. Chang, C.-H., Sushchikh, S. Nguyen, L., Liou, M.-S., and Theofanous, T.G., “Hyperbolicity, discontinuities, and numerics of two-fluid model,” submitted to J. Fluid Engineering.
  8. Nourgaliev, R.R., Liou, M.-S., and Theofanous, T.G., “Numerical Prediction of Interfacial Instability Part I: Sharp Interface Method (SIM),” J. Comput. Phys., Vol. 227, 3940-3970, 2008.
  9. Kim, H.-J. and Liou, M.-S., “Numerical Analysis of Compressible Two-Phase Flows Using Cartesian Cut-Cell Method,” AIAA paper 2008-0791, 46th AIAA Aerospace Sciences Meeting, Reno, NV, Jan 7-11, 2008.
  10. Liou, M.-S., Chang, C.-H., Chen, H., and Hu, J.-J., “Numerical Study of Shock-Driven Deformation of Interfaces,” Proceedings: 26th International Symposium on Shock Waves, Göttingen, Germany, July 15-20, 2007.
  11. Liou, M.-S., Nguyen, L., Chang, C.-H., and Theofanous, T. G., “How to Solve Compressible Multifluid Equations: a Simple, Robust and Accurate Method,” AIAA paper 2007-4456, 18th AIAA CFD Conference, Miami, FL, June 25-28, 2007.
  12. Kim, H.-J. and Liou, M.-S., “Three Dimensional Cut Cell Cartesian Method for Interfacial Discontinuity of Multi-Phase Fluids,” AIAA paper 2007-4577, 18th AIAA CFD Conference, Miami, FL, June 25-28, 2007.
  13. Chang, C.-H. and Liou, M.-S., “A Robust and Accurate Approach to Computing Compressible Multiphase Flow: Stratified Flow Model and AUSM+-up Scheme,” J. Comput. Phys. Vol. 225, 840-873, 2007.
  14. Nourgaliev, R.R., Liou, M.-S., and Theofanous, T.G., “On the Numerical Prediction of Interfacial Instabilities,” (keynote) FEDSM 2007-37330, 10th International Symposium on Gas-Liquid Two-Phase Flows, San Diego, CA, July 30-Aug 2, 2007.
  15. Chang, C.-H., Sushchikh, S. Nguyen, L., Liou, M.-S., and Theofanous, T.G., “Hyperbolicity, discontinuities, and numerics of two-fluid model,” (keynote) FEDSM 2007-27338, 10th International Symposium on Gas-Liquid Two-Phase Flows, San Diego, CA, July 30-Aug 2, 2007.
  16. Theofanous, T.G., Nourgaliev, R.R., Wiri, S., Sushchikh, S.Y., and Liou, M.-S., “Linear Instability of Sheared Interfaces: Miscible-Immiscible-Fluids Contrasts,” Proceedings: International Conference on Multiphase Flow, Leipzig, Germany, July 9-13, 2007.
  17. Nourgaliev, R.R., Liou, M.-S., and Theofanous, T.G., “The Sharp Interface Method (SIM): Prediction of Interfacial Instabilities in Shear Flows by DNS,” Proceedings: International Conference on Multiphase Flow, Leipzig, Germany, July 9-13, 2007.
  18. Liou, M.-S., Nguyen, L., Chang, C.-H., Sushchikh, S., Nourgaliev, R.R., and Theofanous, T. G., “Hyperbolicity, Discontinuities, and Numerics of Two-fluid Models,” 4th International Conference on Computational Fluid Dynamics, Gent, Belgium, 10-14 July, 2006.
  19. Nourgaliev, R.R., Liou, M.-S., and Theofanous, T. G., “Interfacial Instability: Sharp Treatment,” 4th International Conference on Computational Fluid Dynamics, Gent, Belgium, 10-14 July, 2006.
  20. Edwards, J. R. and Liou, M.-S., “Simulation of Two-Phase Flows Using Low-Diffusion Shock-Capturing Schemes,” AIAA Paper 2006-1288, 44th AIAA Aerospace Sciences Meeting & Exhibit, Jan. 9-12, Reno, NV, 2006.
  21. Liou, M.-S., “A Sequel to AUSM, Part II: AUSM+-up” J. Comput. Phys. Vol. 214, 137-170, 2006.
  22. Lian, Y. and Liou, M.-S., “Aero-Structural Optimization of a Transonic Compressor Rotor,” J. Propulsion & Power, Vol. 22, No. 4, 880-888, 2006.
  23. Lian, Y. and Liou, M.-S., “Data Mining for Evolutionary Design Optimization,” Computer Modeling in Engineering & Sciences, Vol. 8, No. 1, 61-72, 2005.
  24. Lian, Y. and Liou, M.-S., “Multiobjective Optimization of a Transonic Compressor Rotor Using Evolutionary Algorithm”, J. Propulsion & Power, Vol. 21, 979-987, 2005.
  25. Lian, Y. and Liou, M.-S., “Multi-objective Optimization Using Coupled Response Surface Model and Evolutionary Algorithms,” AIAA J., Vol. 43, No. 6, 1316-1325, 2005.
  26. Liou, M.-S. and Theofanous, T.G., “On Some Computational Challenges in Compressible Multi-Hydrodynamics,” (invited) 6th Asian CFD Conference, Taipei, Taiwan, Oct. 24-27, 2005.
  27. Liou, M.-S. and Chang, C.-H., “An Accurate and Stable Scheme for Multiphase Two-Fluid Equations,” Proceedings: 25th International Symposium on Shock Waves, Bangalore, India, July 17-22, 2005.
  28. Lian, Y., Liou, M.-S., and Oh, C. “Aero-Structural Optimization of a Transonic Compressor Rotor,” to be presented in 41st AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, Tucson, AZ, July 10-13, 2005.
  29. Liou, M.-S., “Issues of Multiphase Flow Simulation,” Proceedings: 2nd International Symposium on Interdisciplinary Shock Wave Research, Sendai, Japan, March 1-3, 2005.
  30. Chang, C.-H. and Liou, M.-S., “Development of Stratified Flow Model with AUSM+-up Scheme for Underwater Explosion” AIAA CP 2005-5344, 17th AIAA CFD Conference, Toronto, Canada, June 1-June 5, 2005.
  31. Oyama, A., Fujii, K., Shimoyama, K., and Liou, M.-S. “Pareto-Optimality-Based Constraint-Handling Technique and Its Application to Compressor Design,” AIAA CP 2005-4983, 17th AIAA CFD Conference, Toronto, Canada, June 1-June 5, 2005.
  32. Lian, Y. and Liou, M.-S., “Multiobjective Optimization of a Transonic Compressor Blade using Evolutionary Algorithm,” AIAA Paper 2005-1816, Austin, TX, June 2005.
  33. Lian, Y., Liou, M.-S., and Oyama, A., “An Enhanced Evolutionary Algorithm with a Surrogate Model,” Proceeding of Genetic and Evolutionary Computation Conference, Seattle, WA, June 2004.
  34. Lian, Y. and Liou, M.-S., “Multi-objective Optimization Using Coupled Response Surface Model and Evolutionary Algorithm,” AIAA Paper 2004-4323, 10th AIAA/ISSMO Multidisciplinary Analysis and Optimization Conference, Albany, NY, Aug 30-Sept 2, 2004.
  35. Chang, C.-H. and Liou, M.-S., “Simulation of Compressible Multifluid Flows with AUSM+-up Scheme,” Proceedings: 3rd ICCFD, Toronto, Canada, July 12-16, 2004.
  36. Nourgalieve, R. R., Dinh, T. N., Liou, M.-S., and Theofanous, T. G., “The Characteristics-Based Matching Method (CBM) for High-Speed Multiphase Fluid-Fluid Flows,” Proceedings: 3rd ICCFD, Toronto, Canada, July 12-16, 2004.
  37. Lian, Y., Liou, M.-S. and Oyama, A., “An Enhanced Evolutionary Algorithm with a Surrogate Model,” Proceedings: 4th Genetic and Evolutionary Computation Conference, Seattle, WA, 2004.
  38. Lian, Y. and Liou, M.-S., “Data Mining for Evolutionary Design Optimization,” AIAA Paper 2004-2143, 34th AIAA Fluid Dynamics Conference, June 28-July 1, 2004.
  39. Liou, M.-S. and Takayama, K., (invited) “High Mach and Low Reynolds Numbers Flow Past Micro Spheres,” Proceedings: International Symposium on Interdisciplinary Shock Wave Research, Sendai, Japan, March 22-24, 2004.
  40. Oyama, A. and Liou, M.-S., “Transonic Axial-Flow Blade Optimization Using Evolutionary algorithms and a Three-Dimensional Navier-Stokes Solver,” J. Propulsion & Power, Vol. 20, No. 4, 612-619, 2004.
  41. Zheng, Y. and Liou, M.-S., “A Novel Approach of Three-Dimensional Hybrid Grid Methodology, Part I: Grid Generation,” Computer Methods in Applied Mechanics & Engineering, Vol. 192, No 37-38, pp 4147-4171, 2003.
  42. Liou, M.-S. and Zheng, Y., “A Novel Approach of Three-Dimensional Hybrid Grid Methodology, Part II: Flow Solution,” Computer Methods in Applied Mechanics & Engineering, Vol. 192, No 37-38, pp 4173-4193, 2003.
  43. Liou, M.-S., “Making of AUSM-family Schemes,” (plenary), Proceedings: 5th Asian CFD Conference, Busan, Korea, Oct. 27-30 2003.
  44. Liou, M.-S., “A Further Development of the AUSM+ Scheme towards Robust and Accurate Solutions for All Speeds,” AIAA Paper 2003-4116, 16th AIAA CFD Conference, Orlando, FL, June23-26, 2003.
  45. Chang, C.-H. and Liou, M.-S., “A New Approach to the Simulation of Compressible Multifluid Flows with AUSM+ Scheme,” AIAA Paper 2003-4107, 16th AIAA CFD Conference, Orlando, FL, June 23-26, 2003.
  46. Oyama, A., Liou, M.-S., and Obayashi, S., “High-Fidelity Swept and Leaned Rotor Blade Design Optimization Using Evolutionary Algorithm,” AIAA Paper 2003-4091, 16th AIAA CFD Conference, Orlando, FL, June 23-26, 2003.
  47. Chima, R. and Liou, M.-S., “Comparison of the AUSM+ and E-CUSP Schemes for Turbomachinery Applications,” AIAA Paper 2003-4120, 16th AIAA CFD Conference, Orlando, FL, June 23-26, 2003.
  48. Stewart, M., Suresh, A., Liou, M.-S., K. Owen, and Messit, D., “Multidisciplinary Analysis of a Hypersonic Engine.” AIAA Paper 2002-5127, 11th AIAA/AAAF International Space Planes and Hypersonic Systems and Technologies Conference, Orleans, France, Sept 29-Oct 4, 2002.
  49. Oyama, A., Liou, M.-S., and Obayashi, S., “Transonic Axial-Flow Blade Shape Optimization Using Evolutionary Algorithm and Three-Dimensional Navier-Stokes Solver,” AIAA Paper 2002-5642, 9th AIAA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, Atlanta, GA, 2002.
  50. Liou, M.-S. and Zheng, Y., “A Flow Solver for Three-Dimensional DRAGON Grids,” NASA TM 2002-211512, 2002.
  51. Oyama, A. and Liou, M.-S., “Multiobjective Optimization of a Multi-Stage Compressor Using Evolutionary Algorithm,” 38th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, AIAA Paper 2002-3535, Indianapolis, IN, July 2002.
  52. Oyama, A. and Liou, M.-S., “Design Optimizations of Turbomachines Using Evolutionary Algorithm,” (invited) Transactions of the Aeronautical and Astronautical Society, Republic of China, Vol.34, No.2, 528-535, June 2002.
  53. Takaki, R. and Liou, M.-S., “Effects of Heat Release Preceding a Hemisphere in Hypersonic Flow,” AIAA J., Vol. 40, 501-509, 2002.
  54. Oyama, A. And Liou, M.-S., “Multiobjective Optimization of Rocket Engine Pumps Using Evolutionary Algorithm,” J. Propulsion & Power, Vol. 18, 528-535, 2002.
  55. Zheng, Y. and Liou, M.-S., “Three-Dimensional DRAGON Grid Methodology for Computational Fluid Dynamics,” Computational Fluid Dynamics J., Vol. 10, 585-591, 2002.
  56. Liou, M.-S., “Numerical Simulation of Two Phase Flows,” (invited) Proceedings: International Symposium on Advanced Fluid Information, Sendai, Japan, Oct. 4-5, 2001.
  57. Liou, M.-S., “Contributions towards Reliable and Practical CFD Simulations,” (keynote) Proceedings: 8th Taiwan CFD Conference, E-Land, Taiwan, Aug. 19-20, 2001.
  58. Liou, M.-S., “Ten Years in the Making – AUSM-Family,” (invited) 15th AIAA CFD Conference, Anaheim, CA, June 11-14, 2001.
  59. Zheng, Y. and Liou, M.-S., “Progress in the Three-Dimensional DRAGON Grid Scheme,” 15th AIAA CFD Conference, Anaheim, CA, June 11-14, 2001.
  60. Suresh, A., Liou M.-S., and Debonis, J. R., “Multidisciplinary Analysis of a Supersonic Engine Inlet,” ASME Fluid Engineering Meeting, FEDSM2001-18137, 2001.
  61. Oyama, A. And Liou, M.-S., “Multiobjective Optimization of Rocket Engine Pumps Using Evolutionary Algorithm,” 15th AIAA CFD Conference, Anaheim, CA, June 11-14, 2001.
  62. Liou, M.-S., “Towards Accuracy and Efficiency for Practical CFD Simulations,” (invited) Proceedings: 38th Aircraft Symposium, The Japan Society for Aeronautical and Space Sciences, Sendai, Japan, October 11-13, 2000.
  63. Liou, M.-S. and Zheng Y., “A Three-Dimensional Hybrid Grid: DRAGON Grid,” Computational Fluid Dynamics 2000 (Ed. N. Satofuka), Springer, 2000.
  64. Liou, M.-S. and P. Buning, “Contribution of the Recent AUSM Schemes to the OVERFLOW Code: Implementation and Validation”, AIAA Paper 2000-4404, 18th AIAA applied Aerodynamics Conference, Denver, CO, Aug. 14-17, 2000.
  65. Zheng Y. and Liou, M.-S., “Three-Dimensional DRAGON Grid Methodology: an Approach of Hybrid Grid Schemes,” Proceedings of 4th Asian CFD Conf., China, 2000.
  66. Liou, M.-S. and Zheng, Y., “A Three-Dimensional Hybrid Grid Code: DRAGONFLOW,” 5th Symposium on Overset Grids and Solution Technology, Davis, CA, Sept. 18-20, 2000.
  67. Liou, M.-S., “Mass Flux Schemes and Connection to Shock Instability,” J. Comput. Phys. Vol. 160, 623-648, 2000.
  68. Edwards, J. R. Franklin, R., and Liou, M.-S., “Low-Diffusion Flux-Splitting Methods for Real Fluid Flows,” AIAA J., Vol. 38, 1624-1633, 2000.
  69. Liou, M.-S. and K. P. Singh, “Simulation of Complex Internal Flows Using Unstructured Meshes,” (invited) Special issue of CFD J., Vol. 8, 195-207, 1999.
  70. Niu, Y.-Y. and Liou, M.-S., “Numerical Simulation of Dynamic Stall Using Upwind Methods with Dual Time Stepping,” AIAA J., Vol. 37, 1386-1392, 1999.
  71. Loh, C., Liou, M.-S., and Hui, W-H, “An Investigation of Random Choice Method for Three-Dimensional Steady Supersonic Flows,” Int. J. Numer. Methods in Fluids, Vol. 29, 97-119, 1999.
  72. Liou, M.-S., “The Saga of Developing Advection Upstream Splitting Methods,” (plenary) Proceedings: International Symposium on Computational Fluid Dynamics, Breman, Germany, 1999.
  73. Liou, M.-S., and Edwards, “Numerical Speed of Sound and Its Application to Schemes for All Speeds," 14th AIAA CFD Conference, AIAA Paper 99-3268-CP, 1999.
  74. Zheng, Y., Liou, M.-S. and Civinskas, K. C., “Development of Three-Dimensional DRAGON Grid Technology,” NASA TM 1999-209458, 1999.
  75. Ebert, M., Shyy, W., Thakur, S., Segal, C., and Liou, M.-S., “Heat Transfer and Fluid Flow in Rotating Cavities,” AIAA Paper 99-0737, 37th AIAA Aerospace Sciences Meeting & Exhibit, Reno, NV, Jan. 11-14, 1999.
  76. Liou, M.-S., “Recent Progress and Applications of AUSM+,” Lecture Notes in Physics, Vol. 515, 1998.
  77. Edwards, J. R. and Liou, M.-S., “Low-Diffusion Flux-Splitting Methods for Flows at All Speeds,” AIAA J., Vol. 36, 1610-1617, 1998.
  78. Kao, K.-H. and Liou, M.-S., “Application of Chimera/Unstructured Hybrid Grids for Conjugate Heat Transfer,” AIAA J., Vol. 35, 1472-1478, 1997.
  79. Wada, Y. and Liou, M.-S., “An Accurate and Robust Flux Splitting Scheme for Shock and Contact Discontinuities,” SIAM J. Scientific Computing, Vol. 18, 633-657, 1997. Liou, M.-S., “Further Progress in Numerical Flux Scheme,” Lecture Notes in Physics, Vol. 490, 92-98, 1997.
  80. Liou, M.-S., Kao, K.-H., and Ajmani, K., “Computation of Internal/Rotating Flows Using Recent CFD Techniques,” ASME 96-GT-30, 41st ASME Gas Turbine and Aeroengine Congress Exposition, Birmingham, UK, June 10-13, 1996.
  81. Liou, M.-S., “A Sequel to AUSM: AUSM+” J. Comput. Phys., Vol. 129, 364-382, 1996.
  82. Thakur, S., Shyy, W., and Liou, M.-S., “Convection Treatment and Pressure Splitting for Sequential Solution Procedures. Part I: Theory and One-Dimensional Test Cases,” Numerical Heat Transfer, Part B: Fundamentals, Vol. 29, 1-27, 1996.
  83. Thakur, S., Shyy, W., and Liou, M.-S., “Convection Treatment and Pressure Splitting for Sequential Solution Procedures. Part II: Pressure-Based Algorithm,” Numerical Heat Transfer, Part B: Fundamentals, Vol. 29, 29-42, 1996.
  84. Kao, K.-H. and Liou, M.-S., “On the Application of Chimera/Unstructured Hybrid Grids for Conjugate Heat Transfer,” ASME 96-GT-156, 41st ASME Gas Turbine and Aeroengine Congress Exposition, Birmingham, UK, June 10-13, 1996.
  85. Liou, M.-S. and Kao, K.-H., “DRAGON Grid for Complex Geometry and Flow,” 6th International Symposium on CFD, Sept. 4-8, 1995.
  86. Liou, M.-S., “Progress towards an Improved CFD Method: AUSM+,” AIAA 95-1701-CP, 12th AIAA CFD Conference, 1995.
  87. Ajmani, K. and Liou, M.-S., “Efficient 3D Navier-Stokes Solutions Using an Implicit Conjugate-Gradient Solver on Parallel Computers,” AIAA Paper 95-2337, 31st AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit, July 10-12, 1995.
  88. Ajmani, K. and Liou, M.-S., “Implicit Conjugate-gradient Solvers on Distributed-memory Architectures,” AIAA 95-1695, 12th AIAA CFD Conference, 1995.
  89. Loh, C. Y., Liou, M.-S., and Hui, W. H., “An Investigation of Random Choice Method for 3D Steady Supersonic Flows,” Proceedings of 1st Asian CFD Conference, Jan. 16-19, 1995.
  90. Coquel F. and Liou, M.-S., “Hybrid Upwind Splitting (HUS) by a Field-by-field Decomposition,” NASA TM 106843, ICOMP 95-02, Jan. 1995.
  91. Thakur, S. Shyy, W., and Liou, M.-S., “Investigation of Convection and Pressure Treatment with Splitting Techniques,” NASA TM 106868, ICOMP 95-03, 1995.
  92. Liou, M.-S., “An Extended Lagrangian Method,” J. Comput. Phys., Vol. 118, 294-309, 1995.
  93. Arnone, A, Liou, M.-S., and Povinelli, L., “Integration of Navier-Stokes Equations Using Dual Time Stepping and a Multigrid Method,” AIAA J., Vol. 33, 985-990, 1995.
  94. Kao, K.-H. and Liou, M.-S., “Advance in Overset Grid Schemes: From Chimera to DRAGON Grids,” AIAA J., Vol. 33, 1809-1815, 1995.
  95. Slater, J.W., Liou, M.-S., and Hindman, R.G., “Approach for Dynamic Grids,” AIAA J., Vol. 33, 63-68, 1995.
  96. Kao, K., Liou, M.-S. and Chow, C. Y., “Grid adaptation Using Chimera Composite Overlapping Meshes,” AIAA J., Vol. 32, 942-949, 1994.
  97. Ajmani, K., Ng, W., and Liou, M.-S., “Preconditioned Conjugate Gradient Methods for the Navier-Stokes Equations,” J. Comput. Phys., Vol. 110, 68-81, 1994.
  98. Loh, K. and Liou, M.-S., “A New Lagrangian Method for 3D Steady Supersonic Flows,” J. Comput. Phys., Vol. 113, 224-248, 1994.
  99. Loh, K. and Liou, M.-S., “A Lagrangian Random Choice Approach for Supersonic Real Gas Flows,” SIAM J. Scientific Computing, Vol. 15, 1038-1058, 1994.
  100. Loh, K. and Liou, M.-S., “Three-dimensional Supersonic Steady Duct Flow Using Lagrangian Formulation,” J. Shock Waves, Vol. 3, 239-248, 1994.
  101. Kao, K.-H. and Liou, M.-S., “Direct Replacement of Arbitrary Grid-Overlapping by Non-Structured Grid,” NASA TM 106601, 1994.
  102. Liou, M.-S., “A Continuing Search for a Near-Perfect Numerical Flux Scheme, Part I: AUSM+,” NASA TM 106524, 1994.
  103. Wada, Y. and Liou, M.-S., “Thermally Nonequilibrium Hypersonic Flow Using a New Flux Splitting Scheme,” Proceedings: NAL CFD Conference, July, 1994.
  104. Ajmani, K., Liou M.-S., and R. Dyson, “Parallel Implicit Solutions Using Krylov Solvers for the Navier-Stokes Equations,” AIAA paper 94-0408, 32nd AIAA Aerospace Sciences Meeting, Reno, NV 1994.
  105. Wada, Y. and Liou, M.-S., “A Flux Splitting Scheme with High-Resolution and Robustness for Discontinuities,” AIAA 94-0083, AIAA 32nd Aerospace Sciences Meeting, Reno, NV 1994.
  106. Liou, M.-S., “A Continuing Search for a near-Perfect Numerical Flux Scheme,” (invited), Proceedings: 5th International Symposium on Computational Fluid Dynamics, Sendai, Japan, 1993.
  107. Coquel F. and Liou, M.-S., “Field by Field Hybrid Upwind Splitting Methods,” AIAA 93-3302, 11th AIAA CFD Conference, Orlando, FL, 1993
  108. Arnone, A., Liou, M.-S., and Povinelli, L., “Multigrid Time-Accurate Integration of Navier-Stokes Equations,” AIAA Paper 93-3361, 11th AIAA CFD Conference, Orlando, FL, 1993.
  109. Loh, K., Liou, M.-S., and Kao, K., “A Streamwise Marching Scheme for Computing 3D Duct Flows,” Proceedings of the 5th International Symposium on Computational Fluid Dynamics, Sendai, Japan, 1993.
  110. Steinthorsson, E., Liou, M.-S., Povinelli, L., and Arnone, A., “Numerical Simulations of 3D Laminar Flow over a Backward Facing Step; Flow near Side Walls,” 1993 ASME Fluids Engineering Conference, Washington, D.C., 1993.
  111. Loh, K. and Liou, M.-S., “Computing 3D Steady Supersonic Flow via a New Lagrangian Approach,” AIAA paper 93-0891, 31st AIAA Aerospace Sciences Meeting, Reno, NV 1993.
  112. Ajmani, K., Ng, W., and Liou, M.-S., “Preconditioned Conjugate-Gradient Methods for Low-Speed Flow Calculations,” AIAA paper 93-0881, 31st AIAA Aerospace Sciences Meeting, Reno, NV 1993.
  113. Steinthorsson, E., Liou, M.-S., and Povinelli, L., “Development of an Explicit Multiblock/Multigrid Flow Solver for Viscous Flows in Complex Geometries,” AIAA 93-2380, 29th AIAA Joint Propulsion Meeting, June 28-30, 1993.
  114. Liou, M.-S. and Steffen, C., “A new Flux Splitting Scheme, J. Comput. Phys., Vol. 107, 23-39, 1993.
  115. Loh, K. and Liou, M.-S., “Lagrangian Solution of Supersonic Real Gas Flows, J. Comput. Phys., Vol. 104, 150-161, 1993.
  116. Arnone, A., Liou, M.-S., and Povinelli, L., “Multigrid Calculation of 3D Viscous Cascade Flows,” J. Propulsion & Power, Vol. 9, 605-614, 1993.
  117. Suresh, A. and Liou, M.-S., “The Osher Scheme for Nonequilibrium Reacting Flows,” Int. J. Numer. Methods Fluids, Vol. 15, 219-232, 1992.
  118. Arnone, A., Liou, M.-S., and Povinelli, L., “Navier-Stokes Solution of Transonic Cascade Flows Using Non-periodic C-type Grids,” J. Propulsion & Power, Vol. 8, 410-417, 1992.
  119. Liou, M.-S., “On a Class of New Flux Splitting Schemes, Lecture Notes in Physics, Vol. 414, 115-119, 1992.
  120. Loh, K. and Liou, M.-S., “A New Lagrangian Method for 3D Supersonic Flow Computation,” Proceedings of 1st European CFD Conference, Brussels, 1992.
  121. Coquel, F. and Liou, M.-S., “Stable and Low Diffusive Hybrid Upwind Splitting Methods,” Proceedings of 1st European CFD Conference, Brussels, 1992.
  122. Liou, M.-S. and Loh, K., “An Extended Lagrangian Method for Subsonic Flows,” Proceedings of 1st European CFD Conference, Brussels, 1992.
  123. Kao, K., Liou, M.-S., and Chow, C-Y, “Numerical Investigation of Compressible Taylor-Couette Flow for a Wide Gap,” Int. Conf. Fluid Mech. Theor. Phys., Sept. 1992.
  124. Arnone, A., Liou, M.-S., and Povinelli, L., “Navier-Stokes Analysis of Transonic Cascade Flow,” European Conf. on Turbomachinery, Proceedings of the Institute of Mechanical Engineers, C423/069, March 1991.
  125. Liou, M.-S. and Steffen, C., “A New Hybrid Flux Splitting Scheme, AIAA paper 91-1611, 10th AIAA CFD Conference, Honolulu, HA, 1991.
  126. Lezberg, E.A., Mularz, E.J., and Liou, M.-S., “Chemical Reacting Flows,” Proceedings of Aeropropulsion 1991, NASA Lewis Research Center, 1991.
  127. Liou, M.-S. and Steffen, C., “High-order Polynomial Expansions (HOPE) for Flux-vector Splitting, NASA TM 104452, 1991.
  128. Arnone, A., Liou, M.-S., and Povinelli, L., “Multigrid Calculation of Three-Dimensional Viscous Cascade Flows,” AIAA Paper 91-3238, 9th AIAA Applied Aerodynamics Conference, Baltimore, MD, 1991.
  129. Liou, M.-S., “Further Development of Flux Splitting Schemes,” (invited) 4th International Symposium on CFD, Davis, CA, 1991.
  130. Suresh, A. and Liou, M.-S., “Osher’s Scheme for Real Gases,” AIAA J., Vol. 29, 920-926, 1991.
  131. Hsu, A. T. and Liou, M.-S., “A Computational Analysis of Under-expanded Jets in Hypersonic Regimes,” J. Propulsion & Power, Vol. 7, 297-299, 1991.
  132. Shuen J.-S., Liou, M.-S., and van Leer, B., “Inviscid Flux-Splitting Algorithms for Real Gases with Non-equilibrium Chemistry,” J. Comput. Phys., Vol. 90, 371-395, 1990.
  133. Liou, M.-S., Van Leer, B. and Shuen, J.-S., “Splitting of Inviscid Fluxes for Real Gases,” J. Comput. Phys., 87, 1-24, 1990.
  134. Yoshizawa A. and Liou, M.-S., “Effect of Mean Velocity Shear on the Dissipation Rate of Turbulent Kinetic Energy, Proceedings of Symposium in Honor of Prof. Lumley’s 60th Birthday, Nov. 1990.
  135. Liou, M.-S. and Povinelli, L.A., “Computational Fluid Dynamics Symposium on Aeropropulsion,” (Ed.) NASA CP 3078, NASA Lewis Research Center, 1990.
  136. Michelassi, V., Liou, M.-S., and Povinelli, L. “Implicit Solution of Three-dimensional Internal Turbulent Flows,” NASA TM 103099, 1990.
  137. Harris, J., Marvin, J., Erlerbacher, G., and Liou, M.-S., “Turbulence Modeling for Hypersonic Flow, NASP TM 1114, 1990.
  138. Hsu, A. T. and Liou, M.-S., “Numerical Study of Unsteady Shock Wave Reflections Using an Upwind TVD Scheme,” NASA TM 103251, Aug. 1990.
  139. Shuen, J.-S. and Liou, M.-S., “Flux Splitting Algorithms for Two-Dimensional Real Gas Flows,” AIAA 89-0388, 27th AIAA Aerospace Sciences Meeting, Reno, NV, 1989.
  140. Shuen, J.-S., Liou, M.-S. and Van Leer, B., “A Detailed Analysis of Inviscid Flux Splitting Algorithms for Real Gases with Equilibrium or Finite Rate Chemistry,” Lecture Notes in Physics, Vol. 323, 543-547, 1989.
  141. Liou, M.-S., “A Newton/Upwind Method and Numerical Study of Shock Wave/Boundary Layer Interactions,” Intern. J. Numer. Methods in Fluids, Vol. 9, 747-761, 1989.
  142. Liou, M.-S., “Solutions of One-Dimensional Steady Nozzle Flow Revisited,” AIAA J., Vol. 22, No. 5, 1988, pp. 625-628.
  143. Liou, M.-S. and Van Leer, B., “Choice of Implicit and Explicit Operators for the Upwind Differencing Method,” 26th AIAA Aerospace Sciences Meeting, Reno, NV, Jan. 11-14, 1988, AIAA paper 88-0624.
  144. Liou, M.-S., “A Newton-Upwind-TVD Scheme for Solution of Steady Navier-Stokes Equations,” (invited), International Conference on Computational Engineering Science, Atlanta, GA, Apr. 10-14, 1988.
  145. Liou, M.-S., “A High-Resolution, Efficient Scheme with Application to Strong Shock Wave/Boundary-Layer Interactions,” 5th International Conference on Boundary and Interior Layers – Computational and Asymptotic Methods, Shanghai, China, June 20-24, 1988.
  146. Chang, S.-H. and Liou, M.-S., “A Comparative Study of TVD and UNO Schemes for Euler Equations,” Proceedings: 1st National Fluid Dynamics Congress, Cincinnati, OH, July 24-28, 1988 and NASA TM 101355, 1988.
  147. Liou, M.-S., “An Efficient Navier-Stokes Solution of Shock Wave/Boundary Layer Interactions,” 5th International Conference on Numerical Methods in Laminar and Turbulent Flow,” Montreal, Canada, July 6-10, 1987.
  148. Liou, M.-S., “A Generalized Procedure for Constructing an Upwind-Based TVD Scheme,” AIAA paper 87-0355, 25th AIAA Aerospace Sciences Meeting, Reno, NV, Jan. 12-15, 1987.
  149. Liou, M.-S., “A Generalized Formulation of High Resolution Schemes,” 1st World Congress on Computational Mechanics, Austin, TX, Sept. 22-26, 1986.
  150. Liou, M.-S., “An Efficient Method for Solving the Steady Euler Equations,” AIAA paper 86-1079, AIAA/ASME Fluid Mechanics, Plasma Dynamics and Lasers Conference, Atlanta, GA, May 12-14, 1986.
  151. Liou, M.-S., Hankey, W.L. and Mace, J.L., “Numerical Simulation of a Supersonic Inlet Flow,” AIAA paper 85-1214, 21st AIAA/ASME/SAE Joint Propulsion Conference, Monterey, CA, July 8-10, 1985.
  152. Liou, M.-S. and Coakley, T.J., “Numerical Simulation of Unsteady Transonic Flow in Diffusers,” AIAA J., Vol. 22, No. 8, 1984, pp. 1139-1145.
  153. Liou, M.-S. and Wang, D.-V., “Computation of Two-Dimensional Supersonic Turbulent Flow over a Compression Corner,” Proceedings: 4th International Conference on Applied Numerical Modeling, Tainan, Taiwan, Dec. 28-31, 1984, pp. 674-684.
  154. Ho, W.-C. and Liou, M.-S., “Numerical Calculation of Three-Dimensional Inviscid Supersonic Flows,” Proceedings: 4th International Conference on Applied Numerical Modeling, Tainan, Taiwan, Dec. 28-31, 1984, pp. 692-697.
  155. Liou, M.-S., “Instability of Transonic Nozzle Flows,” AIAA paper 84-0528, 22nd AIAA Aerospace Sciences Meeting, Reno, NV, Jan. 9-11, 1984,.
  156. Liou, M.-S. and Hu, J.-L., “Numerical Solution of the Compressible Viscous Flows,” Proceedings: 7th Conference on Theoretical and Applied Mechanics, Tainan, Taiwan, Dec. 17, 1983.
  157. Liou, M.-S. and Jang, C.-C., “Computation of Inviscid Compressible Flows Using an Implicit Method,” Proceedings: 7th Conference on Theoretical and Applied Mechanics, Tainan, Taiwan, Dec. 17, 1983.
  158. Liou, M.-S., “Analysis of Viscous-Inviscid Interaction in Transonic Internal Flows,” AIAA J., Vol. 21, 962-969, 1983.
  159. Liou, M.-S. and Wang, C.-J., “Computation of Two-Dimensional Inviscid Duct Flows by a Finite Volume Method, “Proceedings: 6th Conference on Theoretical and Applied Mechanics, Taipei, Taiwan, Dec. 15, 1982.
  160. Liou, M.-S., “Some Recent Progress in the Analysis of Transonic Internal Flows,” Proceedings: International Symposium on Engineering Sciences and Mechanics, Tainan, Taiwan, Dec. 29-31, 1981, pp. 523-556.
  161. Coakley, T.J., Bergman, M.Y., Brown, J.L. and Liou, M.-S., “Numerical Computation of Separated Compressible Turbulent Flows,” Proceedings: 3rd Symposium on Turbulent Shear Flows, Davis, CA, Sept. 9-11, 1981.
  162. Liou, M.-S., Coakley, T.J. and Bergman, M.Y., “Numerical Simulation of Transonic Flows in Diffusers,” AIAA paper 81-1240, 14th AIAA Fluid and Plasma Dynamics Conference, Palo Alto, CA, June 23-25, 1981.
  163. Liou, M.-S. and Adamson, T.C., Jr., “Interaction between a Normal Shock Wave and a Turbulent Boundary Layer at High Transonic Speeds, Part II, Wall Shear Stress,” Zeitschrift fur Angevandte Mathematik und Physik, Vol. 31, 222-246, 1980.
  164. Liou, M.-S. and Sajben, M., “Analysis of Unsteady Viscous Transonic Flow with a Shock Wave in a Two-Dimensional Channel,” AIAA paper 80-0195, 18th AIAA Aerospace Sciences Meeting, Pasadena, CA, Jan. 14-16, 1980.
  165. Adamson, T.C., Jr., Messiter, A.F. and Liou, M.-S., “Large Amplitude Shock Wave Motion in Two-Dimensional Transonic Channel Flow,” AIAA J., Vol. 16, 1240-1247, 1978.

Book Chapters

  1. Liou, M.-S., and Theofanous, T. “Computation with Effective-Field Models,” (in preparation).
  2. Liou, M.-S. and Chang, C.-H., “Computing Multiphase Flows Using AUSM+-up Scheme” Computing the Future IV (Eds. D. A. Caughey and M. M. Hafez), 2005.
  3. Liou, M.-S. and Edwards, J. R., “AUSM-family Schemes for Multiphase Flows at All Speeds,” Numerical Simulations of Incompressible Flows (Ed. M. M. Hafez), World Scientific, 2003.
  4. Liou, M.-S. and Zheng Y., “Development of 3D DRAGON Grid Method for Complex Geometry,” Frontiers of Computational Fluid Dynamics 2002 (Eds. D. A. Caughey and M. M. Hafez), World Scientific Pub. Co. 2002.
  5. Liou, M.-S., “Probing Numerical Fluxes: Mass Flux, Positivity, and Entropy-Satisfying Condition,” CFD Review 1997, Chapter 16 (Eds. M. M. Hafez and K. Oshima), John Wiley & Sons, 1997.
  6. Liou, M.-S., and Edwards, J. R.,”AUSM schemes and Extensions for Low Mach and Multiphase Flows,” Lecture Series 1999-03, 30th Computational Fluid Dynamics, Von Karman Institute for Fluid Dynamics, March 1999.
  7. Liou, M.-S. and Wada, Y., “A Quest towards Ultimate Numerical Flux Scheme,” CFD Review 1995 (Eds. M. M. Hafez and K. Oshima), 251-278, John Wiley & Sons, 1995.
  8. Liou, M.-S. and Kao, K.-H., “Progress in Grid Generation: From Chimera to DRAGON Grids,” Frontiers of CFD 1994 (Eds. D. A. Caughey and M. M. Hafez), Chapter 21, John Wiley & Sons, 1994.

Theses

  1. Liou, M.-S., “Asymptotic Analysis of Interaction between a Normal Shock Wave and Turbulent Boundary Layer in Transonic Flow,” Ph.D. (Advisor: Professor Thomas C. Adamson, Jr.), Department of Aerospace Engineering, The University of Michigan, Ann Arbor, MI, 1977.
  2. Liou, M.-S., “Transport Phenomena by Celia,” M.S. (Advisor: Professor Ching Y. Liu), Department of Mechanical Engineering, National Taiwan University, Taipei, Taiwan, 1972.
NASA Logo - nasa.gov