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Refereed Journal Publications

1. Z. Cheng, F.S. Lien, J.H. Zhang, G.X. Gu (2024), "Blind Zones in Radiating Dispersion at High Péclet Number Driven by Non-Newtonian Fluids in Porous Media ", Journal of Fluid Mechanics, 986: A16.

2. S. Ryan, R. Ripley, F.S. Lien, F. Zhang (2023), "Accelerated Convergence for City-Scale Flow Fields Using Immersed Boundaries and Coupled Multigrid", Journal of Wind Engineering & Industrial Aerodynamics, 241:105541.

3. Y. Wu, F.S. Lien, E. Yee (2023), "Nonlinear Analysis of the Flow-Induced Vibration of a Circular Cylinder with a Splitter-Plate Attachment", Communications in Nonlinear Science and Numerical Simulation, 125: 107403.

4. Z. Cheng, F.S. Lien, E.H. Dowell, E. Yee (2023), "Triggering of Galloping in Structures at Low Reynolds Numbers", Journal of Fluids and Structures, 118: 103860.

5. M. Cann, R. McConkey, F.S. Lien, W. Melek, E. Yee (2023), "A Data-Driven Approach for Generating Vortex-Shedding Regime Maps for an Oscillating Cylinder", Energies, 16: 4440.

6. Z. Cheng, F.S. Lien, E. Dowell, E. Yee, R. Wang, J.H. Zhang (2023), "Critical Effect of Fore-Aft Tapering on Galloping Triggering for a Trapezoidal Body", Journal of Fluid Mechanics, 967: A18.

7. F.S. Lien, H. Ji, S. Ryan, R.C. Ripley, F. Zhang (2023), "A Coupled Multigrid Solver with Wall Functions for Three-Dimensional Turbulent Flows over Urban-Like Obstacles", International Journal for Numerical Methods in Fluids, 95: 1349-1371.

8. L. Gao, F.S. Lien, H. Chen, G. Chen, S. Yang, J. Deng (2023), "Backscattering Echo Intensity Characteristics of Laser in Soil Explosion Dust", Sensors, 23: 5638.

9. Y. Wu, F.S. Lien, E. Yee, G. Chen (2023), "Numerical Investigation of Flow-Induced Vibration for Cylinder-Plate Assembly at low Reynolds Number", Fluids, 8: 118.

10. Y. Wu, F.S. Lien, E. Yee, G. Chen (2023), "Flow-Induced Vibration of a Cylinder-Plate Assembly in Laminar Flow: Branching Behavior", Physics of Fluids, 35: 053612.

11. Z. Cheng, R. McConkey, E. Yee, F.S. Lien (2023), "Numerical Investigation of Noise Suppression and Amplification in Forced Oscillations of Single and Tandem Cylinders in High Reynolds Number Turbulent Flows", Applied Mathematical Modelling, 117: 652-686.

12. Y. Wu, F.S. Lien, E. Yee, G. Chen (2023), "Flow-Induced Vibration of an Elliptic Cylinder with a Splitter-Plate Attachment at Low-Reynolds Number: Self-Limited Oscillations", Journal of Fluids and Structures, 122: 103985.

13. J. Wang, T. Fu, L. Zeng, F.S. Lien, G. Chen (2022), "Thermal-Hydraulic Performance in a Tube with Punched Delta Winglets Inserts in Turbulent Flow", International Journal of Thermal Sciences, 172: 107326.

14. Y. Xing, F.S. Lien, W. Melek, E. Yee (2022), "A Multi-Hour Ahead Wind Power Forecasting System Based on a WRF-TOPSIS-ANFIS Model", Energies, 15: 5472.

15. Z. Cheng, F.S. Lien, E. Yee, G. Chen (2022), "Vortex-Induced Vibration of a Circular Cylinder with Nonlinear Restoring Forces at Low-Reynolds Number", Ocean Engineering, 266: 113197.

16. J.H. Zhang, F.S. Lien, E. Yee (2022), "Investigations of Vertical-Axis-Wind-Turbine Group Synergy Using an Actuator Line Model", Energies, 15: 6211.

17. G. Chen, C. Fu, B. Xu, Y. Wu, F.S. Lien, E. Yee (2022), "Internal Mixing Air-Assisted Spray Nozzle for Large Droplets: Experimental Measurements and Numerical Simulations", Journal of Aerosol Science, 165: 106035.

18. J. Wang, T. Fu, L. Zeng, F.S. Lien, H. Wang, X. Deng (2022), "A Comparative Study on Thermo-Hydraulic Performance in a Tube with Different Punched Winglets", International Journal of Thermal Sciences, 181: 107772.

19. Y. Wu, Z. Cheng, R. McConkey, F.S. Lien, E. Yee (2022), "Modelling of Flow-Induced Vibration of Bluff Bodies: A Comprehensive Survey with Emerging Trends", Energies, 15: 8719.

20. R. McConkey, E. Yee, F.S. Lien (2022), "On the Generalizability of Machine-Learning-Assisted Anisotropy Mappings for Predictive Turbulence Modelling", International Journal of Computational Fluid Dynamics - Special Issue (Machine Learning in CFD), 36: 555-577.

21. G. Abdalrahman, M. Daoud, W. Melek, F.S. Lien, E. Yee (2022), "Design and Implementation of an Intelligent Blade Pitch Control System and Stability Analysis for a Small Darrieus Vertical-Axis Wind Turbine", Energies, 15: 235.

22. J. Wang, T. Fu, L. Zeng, F.S. Lien (2022), "Experimental Investigation of Heat Transfer Enhancement in a Tube with Punched Winglets", International Journal of Thermal Science. 177: 107542.

23. Z. Cheng, F.S. Lien, E. Dowell, R. Wang, J.H. Zhang (2022), "Data-Driven Stability Analysis via the Superposition of Reduced-Order Models for the Flutter of Circular Cylinder Submerged in Three-Dimensional Spanwise Shear Inflow at Subcritical Reynolds Number", Physics of Fluids, 34: 123606.

24. R. McConkey, E. Yee, F.S. Lien (2022), "Deep Structured Neural Networks for Turbulence Closure Modeling", Physics of Fluids, 34: 035110.

25. Z. Cheng, F.S. Lien, E. Yee, J.H. Zhang (2022), "Mode Transformation and Interaction in Vortex-induced Vibration of Laminar Flow Past a Circular Cylinder", Physics of Fluids, 34: 033607.

26. Z. Cheng, F.S. Lien, E. Yee, H. Meng (2022), "A Unified Framework for Aeroacoustics Simulation of Wind Turbines", Renewable Energy, 188: 299-319.

27. G. Chen, X.F. Liang, X.B. Li, D. Zhou, F.S. Lien, J. Wang (2021), "Dynamic Analysis of the Effect of Platoon Configuration on Train Aerodynamic Performance", Journal of Wind Engineering & Industrial Aerodynamics, 211: 104564.

28. J. Chen, D.L. Feng, F.S. Lien, E. Yee, S.X. Deng, F. Gao, C. Peng (2021), "Numerical Modelling of Interaction Between Aluminum Structure and Explosion in Soil", Applied Mathematical Modelling. 99: 760-784.

29. G. Chen, X.F. Liang, D. Zhou, X.B. Li, F.S. Lien (2021), "Numerical Study of Flow and Noise Predictions for Tandem Cylinders Using Incompressible Improved Delayed Detached Eddy Simulation Combined with Acoustic Perturbation Equations", Ocean Engineering, 224: 108740.

30. K. Noah, F.S. Lien, E. Yee (2021), "Large-Eddy Simulation of Subsonic Turbulent Jets Using the Compressible Lattice Boltzmann Method", International Journal for Numerical Methods in Fluids, 93: 927-952.

31. R. McConkey, E. Yee, F.S. Lien (2021), "A Curated Dataset for Data-Driven Turbulence Modelling", Scientific Data, 8: 255.

32. J. Chen, D.L. Feng, S.X. Deng, C. Peng, F.S. Lien (2020), "GPU-Accelerated Smoothed Particle Hydrodynamics Modeling of Jet Formation and Penetration Capability of Shaped Charges", Journal of Fluids and Structures, 99: 103171.

33. J. Chen, F.S. Lien, C. Peng, E. Yee (2020), "GPU-Accelerated Smoothed Particle Hydrodynamics Modeling of Granular Flow", Powder Technology, 359: 94-106.

34. Z. Wang, Y. Hu, S. Chen, L. Zhou, W. Xu, F.S. Lien (2020), "Investigation of Self-Excited Oscillation Chamber Cavitation Effect with Special Emphasis on Wall Shape", Transactions of the Canadian Society for Mechanical Engineering. 44: 244-255.

35. H. Meng, F.S. Lien, E. Yee, J. Shen (2020), "Modelling of Anisotropic Beam for Rotating Composite Wind Turbine Blade by Using Finite-Difference Time-Domain (FDTD) Method", Renewable Energy, 162: 2361-2379.

36. H. Meng, F.S. Lien, G. Glinka, P. Geiger (2019), "Study on Fatigue Life of Bend-Twist Coupling Wind Turbine Blade Based on Anisotropic Beam Model and Stress-Based Fatigue Analysis Method", Composite Structures, 208: 678-701.

37. J. Zhang, D. Infield, J. Yan, Y. Liu, F.S. Lien (2019), "Short Term Forecasting and Uncertainty Analysis of Wind Turbine Power Based on Long Short Term Memory Network and Gaussian Mixture Model", Applied Energy, 241: 229-244.

38. J. Chen, C. Peng, F.S. Lien (2019), "Simulations for Three-Dimensional Landmine Detonation Using the SPH Method", International Journal of Impact Engineering,126: 40-49.

39. H. Mo, F.S. Lien, F. Zhang, D.S. Cronin (2019), "A Mesoscale Study on Explosively Dispersed Granular Material Using Direct Simulation", Journal of Applied Physics, 125: 1-15.

40. J. Chen, C. Peng, F.S. Lien, E. Yee (2019), "Simulations for the Explosion in a Water-Filled Tube Including Cavitation Using the SPH Method", Computational Particle Mechanics, 6: 515-527.

41. H. Meng, F.S. Lien, G. Glinka, L. Li, J. Zhang (2019), "Study on Wake-induced Fatigue on Wind Turbine Blade Based on Elastic Actuator Line Model and Two-dimensional Finite Element Model", Wind Engineering - Special issue on NAWEA Symposium 2017, 43: 64-82.

42. A. Abdul-kadhim, F.S. Lien, E. Yee (2019), "GPGPU Implementation of a Lattice Boltzmann Methodology for Particle Transport and Deposition in in Complex Flow", International Journal of Numerical Methods for Heat and Fluid Flow, 29: 2324-2351.

43. H. Meng, F.S. Lien, L. Li (2018), "Elastic Actuator Line Modelling for Wake-Induced Fatigue Analysis of Horizontal Axis Wind Turbine Blade", Renewable Energy, 116: 423-437.

44. H. Mo, F.S. Lien, F. Zhang, D. Cronin (2018), "A Numerical Framework for the Direct Simulation of Dense Particulate Flow Under Explosive Dispersal", Shock Waves, 28: 559-577.

45. H. Mo, F.S. Lien, F. Zhang, D. Cronin, "An Immersed Boundary Method for Solving Compressible Flow with Arbitrarily Irregular and Moving Geometry", International Journal for Numerical Methods in Fluids, 88: 239-263.

46. J. Chen, F.S. Lien (2018), "Simulations for Soil Explosion and Its Effects on Structures Using SPH Method", International Journal of Impact Engineering, 112: 41-51.

47. Q. Zeng, N. Aydemir, F.S. Lien, T. Xu (2017), "Extension of High-Resolution AUSM-Family Schemes for Use in Nuclear Safety Analysis Codes", International Journal of Multiphase Flow, 93: 17-32.

48. P. Ma, F.S. Lien, E. Yee (2017), "Computational Acoustic Beamforming for Noise Source Identification for Small Wind Turbines", International Scholarly Research Notices, 2017, ID: 7061391: 1-24.

49. G. Abdalrahman, W. Melek, F.S. Lien (2017), "Pitch Angle Control for a Small-scale Darrieus Vertical Axis Wind Turbine with Straight Blades (H-Type VAWT)", Renewable Energy, 114: 1353-1362.

50. P. Ma, F.S. Lien, E. Yee (2017), "Coarse-resolution Numerical Prediction of Small Wind Turbine Noise with Validation Against Field Measurements", Renewable Energy, 102: 502-515.

51. J.W. Nam, F.S. Lien (2015), “Assessment of Ghost-Cell Based Cut-Cell Method for Large-Eddy Simulations of Compressible Flows at High Reynolds Number”, International Journal of Heat and Fluid Flow, 53: 1-14.

52. Y. Koda and F.S. Lien (2015), “The Lattice Boltzmann Method Implemented on the GPU to Simulate the Turbulent Flow Over a Square Cylinder Confined in a Channel”, Flow, Turbulence and Combustion, 94: 495-512.

53. Q.L. Zeng, N.U. Aydemir, F.S. Lien, T. Xu (2015), “Comparison of Implicit and Explicit AUSM-Family Schemes for Compressible Multiphase Flow”, International Journal for Numerical Methods in Fluids, 77: 43-61.

54. B.C. Wang, E. Yee, F.S. Lien (2015), “Turbulent Dispersion of a Passive Scalar in a Staggered Array of Cubes”, Numerical Heat Transfer, Part B, 67: 281-301.

55. Z. Men, E. Yee, F.S. Lien, H. Ji and Y. Liu (2014), “Bootstrapped Multi-Model Neural-Network Super-Ensembles for Wind Speed and Power Forecasting”, Energy and Power Engineering, 6: 340-348.

56. Z. Men, E. Yee, F.S. Lien, Z. Yang, Y. Liu (2014), “Ensemble Nonlinear Autoregressive Exogenous Artificial Neural Networks for Short-Term Wind Speed and Power Forecasting”, International Scholarly Research Notices, Volume 2014 (2014), Article ID 972580, 16 pages, http://dx.doi.org/ 10.1155/2014/972580.

57. Y. Huang, H. Ji, F.S. Lien, H. Tang (2014), “Numerical Study of Three-Dimensional Detonation Structure Transformations in a Narrow Square Tube: from Rectangular and Diagonal Modes into Spinning Modes”, Shock Waves, 24: 375-392.

58. J. Nam, F.S. Lien (2014), “A Ghost-Cell Immersed Boundary Method for Large-Eddy Simulations of Compressible Turbulent Flows”, International Journal of Computational Fluid Dynamics, 28: 41-55.

59. T. Xu, F.S. Lien, H. Ji, F. Zhang (2013), “Formation of Particle Jetting in a Cylindrical Shock Tube”, Shock Waves, 23: 619-634.

60. K.J. Hsieh, F.S. Lien, E. Yee (2013), “Dense Gas Dispersion of CO2 Released from Carbon Capture and Storage Infrastructure into a Complex Environment”, International Journal of Greenhouse Gas Control, 17: 127-139.

61. Y. Koda, F.S. Lien (2013), “Aerodynamic Effects of the Early Three-Dimensional Instabilities in the Flow Over One and Two Circular Cylinders in Tandem Predicted by the Lattice Boltzmann Method”, Computers & Fluids, 74: 32-43.

62. J. Jilesen, F.S. Lien (2012), “A Method for Coupling Free Molecular and Continuum Regime Methods in Order to Simulate Chemical Vapour Deposition”, Computers & Fluids, 59: 84-90.

63. R. Ripley, F. Zhang, F.S. Lien (2012), “Acceleration and Heating of Metal Particles in Condensed Matter Detonation”, Proceedings of the Royal Society A, 468: 1564-1590.

64. Y. Huang, H. Ji, F.S. Lien, H. Tang (2012), “Three-Dimensional Parallel Simulation of Formation of Spinning Detonation in a Narrow Square Tube”, Chinese Phys. Lett., 29, 114701 ( DOI: 10.1088/0256-307X/29/11/114701).

65. J. Jilesen, J. Kuo, F.S. Lien (2012), “Three Dimensional Midpoint Displacement Algorithm for the Generation of Fractal Porous Media”, Computers and Geosciences, 46: 164-173.

66. H. Ji, F.S. Lien, E. Yee (2012), “Parallel Adaptive Mesh Refinement Combined with Additive Multigrid for the Efficient Solution of the Poisson Equation”, ISRN Applied Mathematics, Article ID 246491 (DOI: 10.5402/2012/246491).

67. J. Jilesen, H. Harrison, F.S. Lien, D. McCumber (2010), “Application of a Flow Optimizer in a Limited Space to Increase Series Fan Performance”, Journal of Microelectronics and Electronic Packaging, 7: 181-188.

68. A. Keats, E. Yee, F.S. Lien (2010), “Information-driven Receptor Placement for Contaminant Source Determination”, Environmental Modelling & Software, 25: 1000-1013.

69. A. Scott, F.S. Lien (2010), “A Derivation of the NS-alpha Model and Preliminary Application to Plane Channel Flow”, Journal of Turbulence, 11, N. 31 (pp. 1-16).

70. H. Ji, F.S. Lien, E. Yee (2010), “A New Adaptive Mesh Refinement Data Structure with an Application to Detonation”, Journal of Computational Physics, 229: 8981-8993.

71. H. Ji, F.S. Lien, E. Yee (2010), “Numerical Simulation of Detonation Using an Adaptive Cartesian Cut-Cell Method Combined with a Cell-Merging Technique”, Computers & Fluids, 39: 1041-1057.

72. B.C. Wang, E. Yee, F.S. Lien (2010), “Prediction of Second-Order Concentration Statistics for Dispersing Plumes in Obstacle Arrays”, Progress in Computational Fluid Dynamics – an International Journal, 10: 252-262.

73. J. Jilesen, F.S. Lien (2010), “Comparison of Coupling Methods for Linking Between Reactor and Feature Scales”, Chemical Vapor Deposition, 16: 65-71.

74. A. Scott, F.S. Lien (2010), “Application of the NS-a Model to a Recirculating Flow”, Flow, Turbulence and Combustion, 84: 167-192.

75. K.J. Hsieh, F.S. Lien, E. Yee (2010), “Towards a Unified Turbulence Simulation Approach for Wall-Bounded Flows”, Flow, Turbulence and Combustion, 84: 193-218.

76. F.S. Lien, H. Ji, E. Yee, B. Kournikakis (2010), “Prediction of Aerosol Hazard Arising from the Opening of an Anthrax Letter in an Open-Office Environment Using Computational Fluid Dynamics”, Journal of Engineering of Science and Technology, 5: 302-331.

77. F.S. Lien, H. Liu, E. Chui, C.J. McCartney (2009), “Development of an Analytical beta-function pdf Integration Algorithm for Simulation of Non-premixed Turbulent Combustion”, Flow, Turbulence and Combustion, 83: 205-226.

78. E. Yee, B.C. Wang, F.S. Lien (2009), “Probabilistic Model for Concentration Fluctuations in Compact-Source Plumes in an Urban Environment”, Boundary-Layer Meteorology, 130: 169-208.

79. A. Keats, M.T. Cheng, E. Yee, F.S. Lien (2009), “Bayesian Treatment of a Chemical Mass Balance Receptor Model with Multiplicative Error Structure”, Atmospheric Environment, 43: 510-519.

80. J. Jilesen, F.S. Lien (2009), “Planar Source Line-of-Sight Model with Automatically Adjusting Time Increment and Local Sticking Factors”, Chemical Vapor Deposition, 15: 242-249.

81. J. Hines, G.P. Thompson, F.S. Lien (2009), “A Turbulent Flow Over a Square Cylinder with Prescribed and Autonomous Motions”, Engineering Applications of Computational Fluid Mechanics, 3: 573-586.

82. B.C. Wang, E. Yee, F.S. Lien (2009), “Numerical Study of Dispersing Pollutant Clouds in a Build-up Environment”, Int. J. Heat Fluid Flow, 30: 3-19.

83. H. Ji, F.S. Lien, E. Yee (2008), “A Robust and Efficient Hybrid Cut-Cell/Ghost-Cell Method with Adaptive Mesh Refinement for Moving Boundaries on Irregular Domains”, Computer Methods in Applied Mechanics and Engineering, 198: 432-4

84. W. Jang, J. Jilesen, F.S. Lien, H. Ji (2008), “A Study on the Extension of a VOF/PLIC Based method to a Curvilinear Co-orinate System”, International Journal of Computational Fluid Dynamics, 22: 241-257.

85. E. Yee, F.S. Lien, A. Keats, R. D’Armours (2008), “Bayesian Inversion of Concentration Data: Source Reconstruction in the Adjoint Representation of Atmospheric Diffusion”, Special Issue of Journal of Wind Engineering & Industrial Aerodynamics, 96: 1805-1816

86. F.S. Lien, E. Yee, H. Ji, K.J. Hsieh (2008) “Partially Resolved Numerical Simulation and RANS Modeling of Flow and Passive Scalar Transport in an Urban Environment”, Special Issue of Journal of Wind Engineering & Industrial Aerodynamics, 96: 1832-1842.

87. H. Ahn, F.S. Lien, J. Larsson, J. Hines (2007), “Simulation of Aeroacoustics Resonance in a Deep Cavity with Grazing Flow Using a Pressure-Based Solver”, Special Issue of International Journal of Computational Fluid Dynamics, 22: 39-47.

88. A. Keats, E. Yee, F.S. Lien (2007), “Efficiently Characterizing the Origin and Decay Rate of a Non-conservative Scalar Using Probability Theory”, Ecological Modeling, 205: 437-452.

89. J. Larsson, F.S. Lien, E. Yee (2006), “Feedback-Controlled Forcing in Hybrid LES/RANS”, International Journal of Computational Fluid Dynamics, 20: 687-699.

90. K.J. Hsieh, F.S. Lien, E. Yee (2007), “Numerical Modelling of Scalar Dispersion in an Urban Canopy”, Journal of Wind Engineering & Industrial Aerodynamics, 95: 1611-1636.

91. J. Larsson, F.S. Lien, E. Yee (2007), “The Artificial Buffer Layer and the Effect of Forcing in Hybrid LES/RANS”, International Journal of Heat and Fluid, 28: 1443-1459.

92. A. Keats, E. Yee, F.S. Lien (2007), “Reply to the ‘Comments on: ‘Bayesian Inference for Source Determination with Applications to a Complex Urban Environment’”, Atmospheric Environment, 41: 5547-5551.

93. A. Keats, E. Yee, F.S. Lien (2007), “Bayesian Inference for Source Determination with Applications to a Complex Urban Environment”, Atmospheric Environment, 41: 465-479.

94. H. Ji, F.S. Lien, E. Yee (2006), “An Efficient Second-Order Accurate Cut-Cell Method for Solving the Variable Coefficient Poisson Equation with Jump Conditions on Irregular Domains”, International Journal for Numerical Methods in Fluids, 52: 723-748.

95. F.S. Lien, E. Yee, H. Ji, A. Keats, K.J. Hsieh (2006), “Progress and Challenges in the Development of Physically-Based Numerical Models for Prediction of Flow and Contaminant Dispersion in the Urban Environment”, International Journal of Computational Fluid Dynamics, 20: 323-337.

96. J. Jilesen, F.S. Lien and H. Ahn (2006), “Investigation of Increased Performance of Close Series Stacked Tube Axial Fans Due to Inclusion of Diffuser Element”, Microelectronics Reliability, 46: 984-993.

97. R.C. Ripley, F.S. Lien, M.M. Yovanovich (2006), “Numerical Simulation of Shock Diffraction on Unstructured Grid”, Computers & Fluids, 35: 1420-1431

98. F.E. Ham, F.S. Lien, A.B. Strong (2005), “Multiple Semi-Coarsened Multigrid Method with Application to Large Eddy Simulation”, International Journal for Numerical Methods in Fluids, 50: 579-596.

99. K.J. Hsieh, F.S. Lien (2005), “Conjugate Turbulent Forced Convection in a Channel with an Array of Ribs”, International Journal of Numerical Methods for Heat and Fluid Flow, 15: 462-482.

100. J. Larsson, F.S. Lien, E. Yee (2005), “Highly Parallel Multigrid Algorithm for the Poisson Equation on Anisotropic Grids With Application to Large Eddy Simulation”, Journal of Computational Physics, 28: 368-383.

101. F.S. Lien, E. Yee, J.D. Wilson (2005), “Numerical Modelling of the Turbulent Flow Developing Within and Over a 3-D Building Array, Part II: Mathematical Formulation for a Distributed Drag Force Approach”, Boundary-Layer Meteorology, 114: 245-285.

102. F.S. Lien, E. Yee (2005), “Numerical Modelling of the Turbulent Flow Developing Within and Over a 3-D Building Array, Part III: A Distributed Drag Force Approach, Its Implementation and Application”, Boundary-Layer Meteorology, 114: 287-313.

103. R.C. Ripley, F.S. Lien, M.M. Yovanovich (2004), “Adaptive Mesh Refinement of Supersonic Channel Flows on Unstructured Meshes”, Special Edition of International Journal of Computational Fluid Dynamics, 18: 189-198.

104. E.C. Chan, F.S. Lien (2004), “Permeability Effects of Turbulent Flow Through a Porous Insert in a Backward-Facing-Step Flow”, Journal of Transport in Porous Media, 59: 47-71.

105. B. Sharman, F.S. Lien, L. Davidson, C. Norberg (2004), “Numerical Predictions of Low Reynolds Number Flows Over Two Tandem Circular Cylinders”, International Journal of Numerical Methods in Fluids, 46: 1099-1125.

106. W.A. Keats, F.S. Lien (2004), “Two-Dimensional Anisotropic Cartesian Mesh Adaptation for the Compressible Euler Equations”, International Journal for Numerical Methods in Fluids, 46: 1099-1125

107. F.S. Lien, E. Yee (2004), “Numerical Modelling of the Turbulent Flow Developing Within and Over a 3-D Building Array, Part I: Application of a High-Resolution Reynolds-Averaged Navier-Stokes Approach”, Boundary-Layer Meteorology, 112: 427-466.

108. K.J. Hsieh, F.S. Lien (2004), “Numerical Modelling of Buoyancy-Driven Turbulent Flows in Enclosures”, International Journal of Heat and Fluid Flow, 25: 659-670.

109. F.S. Lien, E. Yee, Y. Cheng (2004), “Numerical Simulation of the Mean Flow and Turbulence Over a 2-D Building Array Using High-Resolution Computational Fluid Dynamics and a Drag Force Approach”, Journal of Wind Engineering & Industrial Aerodyanmics, 92, 117-158.

110. Y. Cheng, F.S. Lien, E. Yee, R. Sinclair (2003), “Comparison of LES and RANS for a Fully Developed Turbulent Flow Over a Matrix of Cubes”, Journal of Wind Engineering & Industrial Aerodyanmics, 91: 1301-1328.

111. F.E. Ham, F.S. Lien, A.B. Strong (2002), “A Fully Conservative Second-Order Fintie Difference Scheme for Incompressible Flow on Nonuniform Grids”, Journal of Computational Physics, 177: 117-133.

112. F.E. Ham, F.S. Lien, A.B. Strong (2002), “A Cartesian Grid Method with Transient Anisotropic Adaptation”, Journal of Computational Physics, 179: 469-494.

113. F.S. Lien, G. Kalitzin (2000), “Computations of the Transonic Bump Flow with the V2F Model and an All-Speed Pressure-Correction Scheme”, Int. J. Heat and Fluid Flow, 22: 53-61.

114. F.S. Lien (2000), “A Pressure-Based Unstructured-Grid Method for All-Speed Flows”, Int. J. Num. Meth. Fluids, 33: 355-374.

115. F.S. Lien, M.A. Leschziner (1999), “Computational Modelling of a Transitional 3D Turbine-Cascade Flow Using a Modified Low-Re k-e Model and a Multi-Block Scheme”, Int. J. of Computational Fluid Dynamics, 12: 1-15.

116. W.L. Chen, F.S. Lien, M.A. Leschziner (1998), “Non-Linear Eddy-Viscosity Modelling of Transitional Boundary Layers Pertinent to Turbomachine Aerodynamics”, Int. J. Heat and Fluid Flow, 19: 297-306

117. W.L. Chen, F.S. Lien, M.A. Leschziner (1998), “Computational Prediction of Flow around Highly-Loaded Compressor-Cascade Blades with Non-Linear Eddy-Viscosity Models”, Int. J. Heat and Fluid Flow, 19: 307-319.

118. D. Apsley, W.L. Chen and M.A. Leschziner, F.S. Lien (1997), “Non-Linear Eddy-Viscosity Modelling of Separated Flows”, J. Hydraulic Research (IAHR Special Issue), 35: 723-748.

119. W.L. Chen, F.S. Lien, M.A. Leschziner (1997), “Local Mesh Refinement Within a Multi-Block Structured-Grid Scheme for General Flows”, Comp. Meth. Appl. Mech. Eng., 144: 327-369.

120. F.S. Lien, M.A. Leschziner (1997), “Computational Modelling of Multiple Vortical Separation from Streamlined Body at High Incidence”, Aeronautical J., 101: 269-275.

121. F.S. Lien, W.L. Chen, M.A. Leschziner (1996), “A Multi-Block Implementation of Non-Orthogonal Collocated Finite-Volume Algorithm for Complex Turbulent Flows”, Int. J. Num. Meth. Fluids, 23: 567-588.

122. F.S. Lien, M.A. Leschziner (1996), “Second-Moment Closure for Three-Dimensional Turbulent Flow Around and Within Complex Geometries”, Computers & Fluids, 25: 237-262.

123. F.S. Lien, M.A. Leschziner (1995), “Modelling 2D Separation from High-Lift Aerofoil with Non-Linear Eddy-Viscosity Model and Second-Moment Closure”, Aeronautical J., 99: 125-144.

124. F.S. Lien, M.A. Leschziner (1994), “Multigrid Acceleration for Turbulent Flow with a Non-Orthogonal, Collocated Scheme, Comp. Meth. Appl. Mech. Eng., 118: 351-371.

125. F.S. Lien, M.A. Leschziner (1994), “Upstream Monotonic Interpolation for Scalar Transport with Application in Complex Turbulent Flows”, Int. J. Num. Meth. Fluids, 19: 527-548.

126. F.S. Lien, M.A. Leschziner (1994), “Assessment of Turbulence-Transport Models Including Non-Linear RNG Eddy-Viscosity Formulation and Second-Moment Closure for Flow over a Backward-Facing Step”, Computers & Fluids, 23: 983-1004.

127. F.S. Lien, M.A. Leschziner (1994), “A General Non-Orthogonal Collocated FV Algorithm for Turbulent Flow at all Speeds Incorporating Second-Moment Closure, Part 1: Computational Implementation”, Comp. Meth. Appl. Mech. Eng., 114: 123-148.

128. F.S. Lien, M.A. Leschziner (1994), “General Non-Orthogonal Collocated FV Algorithm for Turbulent Flow at all Speeds Incorporating Second-Moment Closure, Part 2: Applications”, Comp. Meth. Appl. Mech. Eng., 114: 149-167.

129. F.S. Lien, M.A. Leschziner (1993), “A Pressure-Velocity Solution Strategy for Compressible Flow and Its Application to Shock/Boundary-Layer Interaction Using Second-Moment Turbulence Closure”, ASME J. Fluid Engrg., 115: 717-725.

130. F.S. Lien, M.A. Leschziner (1991), “Multigrid Convergence Acceleration for Complex Flow Including Turbulence”, Int. Series of Numerical Mathematics, 98: 277‑288.

131. F.S. Lien, T.M. Chen, C.K. Chen (1990), “Analysis of a Free‑Convection Micropolar Boundary Layer About a Horizontal Permeable Cylinder at a Non‑uniform Thermal Condition”, ASME J. Heat Transfer, 112, p. 504-506.

132. J.Y. Yang, F.S. Lien, C.A. Hsu (1990), “Non‑Oscillating Shock‑Capturing Finite Element Methods for the One‑Dimensional Compressible Euler Equations”, Int. J. Num. Meth. Fluids, 11: 405-426.

133. F.S. Lien, C.K. Chen (1987), “Mixed Convection of Micropolar Boundary Layer About a Permeable Sphere”, Int. J. Engineering Science, 25: 775-784.

134. F.S. Lien, C.K. Chen (1986), “Effects of Microstructure on the Conjugated Mixed Forced and Free Convection‑Conduction Analysis of Heat Transfer in a Vertical Plate Fin”, ASME J. Heat Transfer, 108: 580-584.

135. F.S. Lien, C.K. Chen (1986), “Analysis of Natural Convection Flow of Micropolar Fluid About a Sphere With Blowing and Suction”, ASME J. Heat Transfer, 108: 967-970.

136. F.S. Lien, C.K. Chen (1986), “Analysis of Forced Convection Micropolar Boundary Layer About a Sphere With Blowing and Suction”, Int. J. Engineering Science, 24: 991-999.

137. F.S. Lien, C.K. Chen, J.W. Cleaver (1986), “Heat Transfer Due to Axial Turbulent Flow Along a Circular Rod”, AIAA J., 24: 186-188.

138. F.S. Lien, C.K. Chen, J.W. Cleaver (1986), “Mixed and Free Convection Over a Rotating Sphere With Blowing and Suction”, ASME J. Heat Transfer, 108: 398-404.

139. F.S. Lien, C.K. Chen, J.W. Cleaver (1985), “Forced Convection Over Rotating Bodies With Blowing and Suction”, AIAA J., 24: 854-856.

140. F.S. Lien, C.K. Chen, J.W. Cleaver (1985), “Radiative Effect on the Conjugated Forced Convection‑Conduction Analysis of Heat Transfer in a Plate Fin”, AIAA J., 23: 1645-1647.

141. F.S. Lien, C.K. Chen and Y.M. Chang (1985), “Effects of Free Convection and Mass Transfer on the Flow Past an Impulsively Moving Infinite Vertical Circular Cylinder”, Int. Comm. Heat Mass Transfer, 12: 127-137.

142. F.S. Lien, C.Y. Wu, C.K. Chen (1985), “Effects of Convection Heat and Mass Transfer on the Flow About an Oscillating Vertical Plate Under Magnetic Field”, Int. Comm. Heat Mass Transfer, 12: 587-596.

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