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Publications

Refereed Journal Publications

  • M. Pellissier, W.G. Habashi and A. Pueyo, “Optimization via FENSAP-ICE of Hot Air Anti-icing Systems”, submitted AIAA Journal of Aircraft 2010-05-C03109, May 4, 2010.
  • C. Aliaga, M.S. Aubé, G.S. Baruzzi and W.G. Habashi, FENSAP-ICE UNSTEADY: A Unified In-Flight Icing Simulation Methodology for Aircraft, Rotorcraft and Jet Engines", File 2010-02-C000327, Submitted AIAA J. of Aircraft.
  • K. Nakakita, S. Nadarajah and W.G. Habashi, “Toward Real-Time Aero-Icing Simulation for Complete Aircraft Configurations, via FENSAP-ICE”, AIAA Journal of Aircraft, Vol. 27, No. 1, pp. 96-109, January 2010.
  • G. Croce, E. De Candido, W.G. Habashi, J. Munzar, M.S. Aubé, G.S. Baruzzi and C.N. Aliaga, “FENSAP-ICE: A Numerical Model for Predicting Spatial and Temporal Evolution of In-flight Icing Roughness”, submitted AIAA Journal of Aircraft, No. 47143, September 2009.
  • L. Remaki and W.G. Habashi, “A Hermite-Based Mesh Adaptation for CFD Functional Output”, AIAA Journal, Vol. 47, No. 8, pp. 1965-1976, August 2009.
  • W.G. Habashi, Invited Article, “Advances in CFD for In-Flight Icing Simulation, Journal of Japan Society of Fluid Mechanics, Vol. 28, No. 2, pp. 99-1
  • 18, April 2009. R. Honsek, W.G. Habashi and M. Aubé, “Eulerian Modeling of In-Flight Icing Due To Supercooled Large Droplets”, AIAA Journal of Aircraft, Vol. 45, No. 4, pp. 1290-1296, August 2008.
  • L. Remaki and W.G. Habashi, “A posteriori Error Estimate Improvement In Mesh Adaptation for Computer Fluid Dynamics Applications”, Proc. IMechE, Part C: J. Mechanical Engineering Science, Vol. 223(C5), pp. 1117-1126, 2009.
  • M.S. Aubé, G.S. Baruzzi, W.G. Habashi and D. Torok, “The Role of Mesh Adaptation in Computational Wind Engineering Simulation Reliability”, appeared on line: www3.interscience.wiley.com/journal/122499907/abstract and in Press for printed copy International Journal of Numerical Methods in Fluids, September 200
  • 9. K. Nakakita, S. Nadarajah and W.G. Habashi, “Toward Real-Time Aero-Icing Simulation for Complete Aircraft Configurations, via FENSAP-ICE”, Tracking No. 44077, In Press AIAA Journal of Aircraft, May 2009.
  • F. Taghaddosi and W.G. Habashi, “3D Parallel Computations of Engine Noise Radiation Using an Iterative Method”, Tracking No. JSV-D-07-01289, accepted Journal of Sound and Vibration, March 2008.
  • C.N. Aliaga, W.G. Habashi, M.S. Aubé, G.S. Baruzzi and S. Nadarajah “A Third-generation In-flight Icing Code: FENSAP-ICE-Unsteady”, SAE Transactions, Journal of Aerospace, Vol. 116, pp. 697-703, 2008.
  • H. Wang, P. Tran, W.G. Habashi, Y. Chen, M. Zhang and L. Feng, “Anti-Icing Simulation in Wet Air of a Piccolo System using FENSAP-ICE”, Journal of Aerospace, SAE Transactions, April 2008.
  • L. Remaki and W.G. Habashi, “A Cost-Efficient Euler Solver and Acoustic Waves Propagation to Design Suitable Initial Grid for Navier-Stokes Equations”, submitted to International Journal for Numerical Methods in Fluids, FLD-06-0027, January 2006.
  • L. Remaki and W.G. Habashi, “3D Mesh Adaptation on Multiple Discontinuities and Boundary Layers”, SIAM Journal, Vol. 28, No. 4, pp. 1379–1397, September 2006.
  • L. Remaki and W.G. Habashi, “Pacing CFD: automatic mesh adaptation as an efficient tool to improve CFD accuracy”, International Journal of Computational Fluid Dynamics, Vol. 19, N0. 8, pp. 571-580, November 2005.
  • P. Tran, G. Baruzzi, I. Akel, W.G. Habashi and J.C. Narramore, “FENSAP-ICE Applications to Complete Rotorcraft Configurations”, Journal of Aerospace, SAE 2003 Transactions, pp. 1-13, September 2004.
  • H. Beaugendre, F. Morency and W.G. Habashi, “Development of a Second Generation In-flight Icing code”, ASME Journal of Fluids Engineering, March 2006.
  • D. Stanescu, D. Ait-Ali-Yahia, W.G. Habashi and M. Robichaud, “Spectral Element Method for Linear Fan Tone Noise Radiation”, AIAA Journal, Vol. 42, No. 4, April 2004.
  • M. Remaki and W.G. Habashi, “A Discontinuous Galerkin/HLLC Solver for the Euler Equations”, International Journal for Numerical Methods in Fluids, Vol. 43, pp. 1391-1405, 2004.
  • H. Beaugendre, F. Morency and W.G. Habashi, “Roughness Implementation: Model Calibration and Influence on Ice Shapes”, AIAA Journal of Aircraft, Vol. 40, No. 6, pp. 1212-1215, November/December 2003.
  • L. Remaki, H. Beaugendre and W.G. Habashi, “ISOD-An Anisotropic Isovalue-oriented Artificial Viscosity for the Euler and Navier-Stokes Equations”, Journal of Computational Physics, Vol. 186, No. 1, pp. 279-294, 2003.
  • H. Beaugendre, F. Morency and W.G. Habashi, “ICE3D, FENSAP-ICE’s 3D In-Flight Ice Accretion Module”, AIAA Journal of Aircraft, Vol. 40, No 2, March-April 2003, pp. 239-247.
  • I. Akel, W.G. Habashi and H.S. Moustapha, “Toward CFD-Based Correlations for Single-stage High-pressure Transonic Turbine Stage”, International Journal of Rotating Machinery, Vol. 8, No. 5, pp. 337-352, October 2002.
  • G. Croce, H. Beaugendre and W.G. Habashi, “Numerical Analysis of Heat Transfer in Mist Flow, using FENSAP-ICE”, Journal of Numerical Heat Transfer, Part A, Vol. 42 No. 1, pp. 1-14, 2002.
  • M.C. Bogstad, W.G. Habashi, D. Ait-Ali-Yahia, I. Akel, N. Giannias and V. Longo, “A CFD-based Advanced Ship-Airwake Database for Helicopter Flight Simulators”, AIAA Journal of Aircraft, Vol. 39, No. 5, pp. 830 -839, October 2002.
  • J. Dompierre, M-G. Vallet, Y. Bourgault, M. Fortin and W.G. Habashi, “Anisotropic Mesh Adaptation: Towards User-Independent, Mesh-Independent and Solver-Independent CFD Solutions: Part III: Unstructured Meshes”, International Journal for Numerical Methods in Fluids, Vol. 39, pp. 675-702, June 2002.
  • D. Ait-Ali-Yahia, G. Baruzzi, W.G. Habashi, M. Fortin, J Dompierre and M-G. Vallet, “Anisotropic Mesh Adaptation: Towards User-Independent, Mesh-Independent and Solver-Independent CFD Solutions: Part II: Structured Grids”, International Journal for Numerical Methods in Fluids, Vol. 39, pp. 657-674, June 2002.
  • W.G. Habashi, J. Dompierre, Y. Bourgault, D. Ait-Ali-Yahia, M. Fortin and M-G. Vallet, "Anisotropic Mesh Adaptation: Towards User-Independent, Mesh-Independent and Solver-Independent CFD Solutions: Part I: General Principles", International Journal for Numerical Methods in Fluids, Vol. 32, No. 6, pp. 725-744, March 2000.
  • Y. Bourgault, H. Beaugendre and W.G. Habashi, “Development of a Shallow Water Icing Model in FENSAP-ICE, AIAA Journal of Aircraft, Vol. 37, pp. 640-646, 2000.
  • Y. Bourgault, Z. Boutanios and W.G. Habashi, “3D Eulerian Droplets Impingement Using FENSAP-ICE, Part I: Model, Algorithms and Validation”, AIAA Journal of Aircraft, Vol. 37, pp. 95-103, 2000.
  • L.C. Dutto, C.Y. Lepage and W.G. Habashi, “Effect of the Storage Format of Sparse Linear Systems on Parallel CFD Computations”, Computer Methods in Applied Mechanics and Engineering, Vol. 188, Nos. 1-3, pp. 441-453, July 2000.
  • A. Tam, D. Ait-Ali-Yahia, M.P. Robichaud, M. Moore, V. Kozel and W.G. Habashi, “Three-dimensional Mesh Optimization: Tight Coupling of Mesh Generation and Solver, with CAD Integrity”, Invited Paper in Special Issue of Computer Methods in Applied Mechanics and Engineering, Vol. 189, No. 4, pp. 1205-1230, September 2000.
  • F. Taghaddosi, W.G. Habashi, G. Guèvremont and D. Ait-Ali-Yahia, “An Adaptive Approach Least-Squares Method for the Compressible Euler Equations”, International Journal for Numerical Methods in Fluids, Vol. 31, pp. 1121-1139, December 1999.
  • L.C. Dutto and W.G. Habashi, “Parallelization of the ILU(0) Preconditioner for CFD Problems on Shared Memory Computers”, International Journal for Numerical Methods in Fluids, Vol. 30, No. 8, pp. 995-1008, August 1999.
  • N. Ben Salah, A. Soulaimani, W.G. Habashi and M. Fortin, “A Conservative Stabilized Finite Element Method for the Magneto-Hydrodynamics Equations”, International Journal for Numerical Methods in Fluids, Vol. 29, No. 5, pp. 535-554, 1999.
  • M. Sleiman, A. Tam, M.P. Robichaud, M.F. Peeters and W.G. Habashi, “Turbomachinery Multistage Simulation by a Finite Element Adaptive Approach”, ASME Journal of Fluids Engineering, Vol. 121, No. 2, pp. 450-459, June 1999.
  • Y. Bourgault, W.G. Habashi, J. Dompierre and G.S. Baruzzi, “A Finite Element Method Study of Eulerian Droplets Impingement Models”, International Journal for Numerical Methods in Fluids, Vol. 29, No. 4, pp. 429-449, May 1999.
  • D. Stanescu, D. Ait-Ali-Yahia, W.G. Habashi and M.P. Robichaud, “Multidomain Spectral Computations of Ducted Sound Fields”, AIAA Journal, Vol. 37, No. 3, pp. 296-302, March 1999.
  • D. Stanescu and W.G. Habashi, “2N-Storage Low Dissipation and Dispersion Runge-Kutta Schemes for Computational Acoustics”, Journal of Computational Physics, Vol. 143, pp. 674-681, May 1998.
  • D. Stanescu and W.G. Habashi, “Essentially Non-Oscillatory Euler Solutions on Unstructured Meshes Using Extrapolation”, AIAA Journal, Vol. 36, No. 8, pp. 1413-1416, 1998.
  • W.G. Habashi, J. Dompierre, Y. Bourgault, M. Fortin and M.-G. Vallet, “Certifiable Computational Fluid Dynamics Through Mesh Optimization, Special Issue on Credible Computational Fluid Dynamics Simulation, AIAA Journal, Vol. 36, No. 5, pp. 703-711, 1998.
  • L.C. Dutto, W.G. Habashi and M. Fortin, “An Algebraic Multilevel Parallelizable Preconditioner for Large-scale CFD Problems”, Invited Paper in Special Issue of Computer Methods in Applied Mechanics and Engineering, Vol. 149, pp. 303-318, January 1997.
  • D. Ait-Ali-Yahia and W.G. Habashi, “A Finite Element Adaptive Method for Hypersonic Thermo-Chemical Non-equilibrium Flows”, AIAA Journal, Vol. 35, No. 8, pp. 1294-1302, 1997.
  • D. Ait-Ali-Yahia, M.-G. Vallet, A. Tam, W.G. Habashi and M. Fortin, “A Directionally-Adaptive Methodology Using an Edge-Based Error Estimate on Quadrilateral Grids”, International Journal for Numerical Methods in Fluids, Vol. 23, pp. 673-690, 1996.
  • W.G. Habashi, “Putting Computers on Ice”, ICAO Journal, Vol. 50, No. 7, pp. 14-17, October 1995.
  • G.S. Baruzzi, W.G. Habashi, G. Guèvremont and M.M. Hafez, “A Second Order Finite Element Method for the Solution of the Transonic Euler and Navier-Stokes Equations”, Invited paper in special issue of the International Journal for Numerical Methods in Fluids, Vol. 20, pp. 671-693, 1995.
  • L.C. Dutto, W.G. Habashi, M.P. Robichaud and M. Fortin, “A Method for Finite Element Parallel Viscous Compressible Flow Calculations”, International Journal for Numerical Methods in Fluids, Vol. 19, pp. 275-294, 1994.
  • W.G. Habashi, M. Fortin, J.W.H. Liu, M.P. Robichaud, V-N. Nguyen and W.S. Ghaly, “Large-Scale Computational Fluid Dynamics by the Finite Element Method”, International Journal for Numerical Methods in Fluids, Vol. 18, pp. 1083-1105, 1994.
  • L.C. Dutto, W.G. Habashi and M. Fortin, “Parallelizable Block Diagonal Preconditioners for the Compressible Navier-Stokes Equations”, Computer Methods in Applied Mechanics and Engineering, Vol. 117, pp. 15-47, 1994.
  • G. Guèvremont, W.G. Habashi, P.L. Kotiuga and M.M. Hafez, “Finite Element Solution of the 3-D Compressible Navier-Stokes Equations by a Velocity-Vorticity Method”, Journal of Computational Physics, Vol. 107, pp. 176-187, June 1993.
  • J. Strigberger, G.S. Baruzzi and W.G. Habashi, “Some Special Purpose Preconditioners for Conjugate Gradient-Like Methods Applied to CFD”, International Journal for Numerical Methods in Fluids, Vol. 16, No. 7, pp. 581-596, April 1993.
  • M.V. Bhat, W.G. Habashi, V-N. Nguyen, J.W.H. Liu and M.F. Peeters, “A Note on Nested Dissection for Rectangular Grids”, SIAM Journal on Matrix Analysis and Applications, Vol. 14, No. 1, pp. 253-258, January 1993.
  • M.F. Peeters, W.G. Habashi, B.Q. Nguyen and P.L. Kotiuga, “Finite Element Solutions of the Navier-Stokes Equations for Compressible Internal Flows”, AIAA Journal of Propulsion and Power, Vol. 8, No. 1, pp. 192-198, January 1992.
  • G.S. Baruzzi, W.G. Habashi and M.M. Hafez, “Finite Element Solutions of the Euler Equations for Transonic External Flows”, AIAA Journal, Vol. 29, No. 11, pp. 1886-1893, November 1991.
  • M.M. Hafez, W.G. Habashi and S.M. Przybytkowski, “Transonic Viscous-Inviscid Interaction by a Finite Element Method”, International Journal for Numerical Methods in Fluids, Vol. 13, No. 3, pp. 309-319, July 1991.
  • W.G. Habashi, V-N. Nguyen and M.V. Bhat, “Efficient Direct Solvers for Large-Scale Computational Fluid Dynamics Problems”, Computer Methods in Applied Mechanics and Engineering, Vol. 87, pp. 253-265, 1991.
  • M.F. Peeters, W.G. Habashi and B.Q. Nguyen, “Finite Element Solution of the Incompressible Navier-Stokes Equations by a Helmholtz Velocity Decomposition”, International Journal for Numerical Methods in Fluids, Vol. 13, No. 2, pp. 135-144, July 1991.
  • W.G. Habashi, G.S. Baruzzi, M.F. Peeters and M.M. Hafez, “Finite Element Method in the Solution of the Euler and Navier-Stokes Equations for Internal Flow”, Journal of Numerical Methods for Partial Differential Equations, Vol. 7, pp. 193-207, 1991.
  • G. Guèvremont, W.G. Habashi and M.M. Hafez, “Finite Element Solution of the Navier-Stokes Equations by a Velocity-Vorticity Method”, International Journal for Numerical Methods in Fluids, Vol. 10, No. 4, pp. 461-475, March 1990.
  • W.G. Habashi, M.F. Peeters, G. Guèvremont and M.M. Hafez, “Finite Element Solutions of the Compressible Navier-Stokes Equations”, AIAA Journal, Vol. 25, No. 7, pp. 944-948, July 1987.
  • M.F. Peeters, W.G. Habashi and E.G. Dueck, “Finite Element Stream Function-Vorticity Solutions of the Incompressible Navier-Stokes Equations”, International Journal for Numerical Methods in Fluids, Vol. 7, No. 1, pp. 17-27, January 1987.
  • M.M. Hafez, W.G. Habashi and P.L. Kotiuga, “Conservative Calculations of Non- Isentropic Transonic Flows”, International Journal for Numerical Methods in Fluids, Vol. 5, No. 12, pp. 1047-1057, December 1985.
  • W.G. Habashi, P.L. Kotiuga and L. McLean, “Finite Element Simulation of Transonic Flows by Modified Potential and Stream Function Methods”, Journal of Engineering Analysis, Vol. 2, No. 3, pp. 150-154, 1985.
  • W.G. Habashi and M.M. Hafez, “Finite Element Stream Function Solutions of Transonic Rotational Internal and External Flows”, Journal of Numerical Methods for Partial Differential Equations, Vol. 1, No. 2, 1985, pp. 127-144.
  • W.G. Habashi, M.M. Hafez and P.L. Kotiuga, “Computation of Choked and Supersonic Turbomachinery Flows by a Modified Potential Method”, AIAA Journal, Vol. 23, No. 2, pp. 214-220, February 1985.
  • D.S. Breitman, E.G. Dueck and W.G. Habashi, “Finite Element Analysis of a Split-Flow Particle Separator”, Journal of Aircraft, Vol. 22, No. 2, pp. 135-140, February 1985.
  • W.G. Habashi and P.L. Kotiuga, “The Cylinder in the Wind Tunnel, Revisited”, International Journal for Numerical Methods in Engineering, Vol. 20, No. 7, pp. 1261-1271, July 1984.
  • W.G. Habashi and G.G. Youngson, “A Transonic Quasi-3D Analysis for Gas Turbine Engines including Split-Flow Capability for Turbofans”, International Journal for Numerical Methods in Fluids, Vol. 3, No. 1, pp. 1-22, January 1983.
  • W.G. Habashi and P.L. Kotiuga, “Numerical Solution of Subsonic and Transonic Cascade Flows”, International Journal for Numerical Methods in Fluids, Vol. 2, No. 4, pp. 317-330, October 1982.
  • . W.G. Habashi and M.M. Hafez, “Finite Element Solution of Transonic Flow Problems”, AIAA Journal, Vol. 20, No. 10, pp. 1368-1376, October 1982.
  • W.G. Habashi, E.G. Dueck and D.P. Kenny, “A Finite Element Approach to Compressor Blade-to-Blade Cascade Analysis”, AIAA Journal, Vol. 17, No. 7, pp. 693-698, July 1979.
  • W.G. Habashi, “The Finite Element Method in the Solution of Unbounded Potential Flows”, International Journal for Numerical Methods in Engineering, Vol. 14, No. 9, pp. 1347-1358, 1979.
  • W.G. Habashi, “A Finite Element Approach to Subsonic Aerodynamics”, International Journal for Numerical Methods in Engineering, Vol. 14, No. 5, pp. 665-680, 1979.

CONFERENCE PUBLICATIONS

  • W. Habashi, “Recent Advances in the Simulation of In-Flight Icing”, Keynote Address, 7th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Antalia, Turkey, July 2010.
  • M. Fossati, R. Khurram and W.G. Habashi, “An Arbitrary Lagrangian-Eulerian Mesh Movement Scheme for Long-Term In-Flight Ice Accretion’, Proceedings of 18th Conference of the CFD Society of Canada, London, June 2010.
  • W. Habashi, “A Frontier of Parallel CFD: Real Time In-Flight Icing Simulation Over Complete Aircraft”, Keynote Address, Proceedings of the 10th Annual Conference of the Korean Society of Computational Fluids Engineering, p. 14, Jenju, Korea, May 2010.
  • M. Pelissier and W.G. Habashi, “Design Optimization of Hot Air Anti-icing Systems”, 40th AIAA Fluid Dynamics Conference, Orlando, January 2010.
  • V. Lappo and W.G. Habashi, “Reduced Order Modeling for Real-Time 3D CFD”, 11th Pan American Congress of Applied Mechanics (PACAM XI), Foz do Iguaçu, Brazil, January 4-8, 2010.
  • G. Croce, E. de Candido, W.G. Habashi, M. Aubé and G.S. Baruzzi, “Numerical Simulation of Ice Roughness Growth”, AIAA-2009-4126, 1st AIAA Atmospheric and Space Environments Conference, June 2009, San Antonio, Texas.
  • X. Veillard, W.G. Habashi, M. Aubé and G.S. Baruzzi, “Ice Accretion in Multistage Engines”, AIAA-2009-4158, 1st AIAA Atmospheric and Space Environments Conference, June 2009, San Antonio, Texas.
  • S. Nilamdeen, W.G. Habashi, M. Aubé and G.S. Baruzzi, FENSAP-ICE, “Modeling of Water Droplets and Ice Crystals”, AIAA Paper 2009-4128, 1st AIAA Atmospheric and Space Environments Conference, June 2009, San Antonio, Texas.
  • W.G. Habashi, Keynote Address, “Mesh Adaptation for Integrated Quantities”, 11th Numerical Grid Conference, École Polytechnique, Montréal, May 25-28, 2009.
  • W.G. Habashi, Keynote Address, “A Frontier of Parallel CFD: Real-Time In-Flight Icing Simulation Over Complete Aircraft”, ParCFD 2009, NASA Ames, Moffett Field, California, May 18-22, 2009.
  • W.G. Habashi, Keynote Address, “Impact of High Performance Computing on Canadian CFD
  • ”, 2009 SHARCNET Day, University of Waterloo, May 21, 2009. W.G. Habashi, Keynote Address, “CFD of In-Flight Icing: a Frontier of CFD”, Grand Review in the Numerical Simulation of Fluid Flow 2, Institution of Mechanical Engineers, London, April 30, 2009.
  • V. Lappo and W.G. Habashi, “POD/Kriging Approximations of Multi-disciplinary CFD simulation, with application to in-flight icing”, 17th Conference of the CFD Society of Canada, Kanata, May 2-4, 2009.
  • S. Nilamdeen and W.G. Habashi, “FENSAP-ICE: Toward the Modeling of the Ice Crystals Ingestion in Jet Engines”, 17th Conference of the CFD Society of Canada, Kanata, May 2-4, 2009.
  • W. Habashi, Keynote Address, “Advances in Simulation of In-flight icing”, 22nd Conference of the Japanese Society of Fluid Mechanics, Olympic Center, Tokyo, December 18, 2008.
  • C.N. Aliaga, W.G. Habashi, S. Nadarajah, M. Aubé and G.S. Baruzzi, “FENSAP-ICE Unsteady: A Multiphase Approach to In-Flight Icing”, 16th Conference of the CFD Society of Canada, University of Saskatchewan, June 2008.
  • G. Croce, E. de Candido, W.G. Habashi and M. Aubé, “Numerical Simulation of Ice Roughness Growth”, Proceedings 5th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2008), June 2008, Venice, Italy
  • W.G. Habashi, M. Aubé, G.S. Baruzzi and C. Aliaga, “Advances in FENSAP-ICE for Simulation of Aircraft, Rotorcraft, UAVs and Jet Engine In-flight Icing: A Frontier of CFD”, Proceedings 5th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2008), June 2008, Venice, Italy
  • W.G. Habashi and M. Aubé, “In-flight Icing: A Frontier of CFD”, Proceedings 10th Pan American Congress of Applied Mechanics (PACAM X), January 2008, Cancun, Mexico
  • K. Nakakita, W.G. Habashi and S. Nadarajah, ”Toward Real-Time Aero-Icing Simulation using Reduced Order Models”, Paper 07ICE-125, SAE Aircraft and Engine Icing International Conference, Seville, Spain, September 2007
  • M.S. Aubé, C.N. Aliaga, W.G. Habashi and G.S. Baruzzi, “Application of FENSAP-ICE-Unsteady to Helicopter Icing”, Paper 07ICE-56, SAE Aircraft and Engine Icing International Conference, Seville, Spain, September 2007
  • X. Veillard, C.N. Aliaga and W.G. Habashi, “FENSAP-ICE Modeling of the Ice Particle Threat to Engines in Flight”, Paper 07ICE-132, SAE Aircraft and Engine Icing International Conference, Seville, Spain, September 2007
  • C.N. Aliaga, W.G. Habashi M.S. Aubé and G.S. Baruzzi, “A Third-generation In-flight Icing Code: FENSAP-ICE-Unsteady”, Paper 07ICE-33, SAE Aircraft and Engine Icing International Conference, Seville, Spain, September 2007
  • H. Wang, P. Tran, W.G. Habashi, Y. Chen, M. Zhang and L. Feng, “Anti-Icing Simulation in Wet Air of a Piccolo System using FENSAP-ICE”, Paper 07ICE-60, SAE Aircraft and Engine Icing International Conference, Seville, Spain, September 2007
  • G.S. Baruzzi, P. Lagacé, W.G. Habashi and M.S. Aubé, “FENSAP-ICE: A Computational Approach to Shed-Ice Trajectory Simulation”, Paper 07ICE-34, SAE Aircraft and Engine Icing International Conference, Seville, Spain, September 2007
  • . K. Nakakita, W.G. Habashi and S. Nadarajah, ”Toward Real-Time Aero-Icing Simulation using Reduced Order Models”, AIAA Paper 2007-4281, 37th AIAA Fluid Dynamics Conference, Miami, June 200
  • L. Remaki, W.G. Habashi, S. Nadarajah, “Functional Output Error-based Mesh Adaptation”, AIAA Paper 2007-1297, 45th AIAA Aerospace Sciences Meeting, Reno, January 2007
  • F. Taghaddosi and W.G. Habashi, “3D Parallel Spectral Computations of Fan Noise”, ECCOMAS CFD 2006 Conference, September 2006, Egmond aan Zee, The Netherlands
  • J. Dow, Sr., P. Tran, N. Ben Abdallah and W.G. Habashi, “Strategy for Overcoming Limitations of Ice Shape Prediction and Shape Criticality”, 2nd International Conference on Icing Technology, September 2006, Rome, Italy
  • W.G. Habashi, “Toward Virtual Certification of In-Flight Icing: A pacing item for CFD, Keynote Address, Fifth International Conference on Engineering Computational Technology, September 2006, University of Las Palmas de Gran Canaria, Canary Islands
  • F. Tremblay, W.G. Habashi, M. Aubé, C. Wang, B. Huang and G. Wang, “A CWE/WT Study of the Flow over High Rise Buildings, Using Anisotropic Mesh Optimization”, Proceedings 4th International Symposium on Computational Wind Engineering, pp. pp. 789-796, Yokohama, July 2006
  • W.G. Habashi, “In-Flight Icing Simulation and Certification, A Frontier of CFD”, Keynote Address, CFD Society of Canada Conference, Kingston, July 2006
  • C. Bucur, L. Remaki, S. Nadarajah, W.G. Habashi, “Mesh Adaptation and Shock Detectors for Transonic Viscous Flows using SUPG-FEM”, AIAA CFD Conference, San Francisco, May 2006
  • R. Hunsek and W.G. Habashi, “FENSAP-ICE Modeling of Droplet Impingement in the SLD Regime of Aircraft Icing”, AIAA Paper 2006-0465, 44th AIAA Aerospace Sciences Meeting, Reno, January 2006
  • L. Remaki, S. Nadarajah, W.G. Habashi, M.C. Bogstad, C. Kho and F. Mokhtarian, “On A-Posteriori Error Estimation in Mesh Adaptation to Improve CFD Solutions”, AIAA Paper 2006-0890, 44th AIAA Aerospace Sciences Meeting, Reno, January 2006
  • F. Morency, H.Z. Wang, W.G. Habashi, S. Nadarajah, A. Pueyo and F. Kafyeke, “Thermal Validation of FENSAP-ICE Anti-Icing Procedure”, 11th CASI Aerodynamics Symposium, Toronto, April 2005
  • L. Remaki, S. Nadarajah, W.G. Habashi, M.C. Bogstad, C. Kho and F. Mokhtarian, “Mesh Adaptation Impact on Lift and Drag Coefficients”, 11thth Aerodynamics Symposium, Toronto, April 2005
  • L. Remaki and W.G. Habashi, “Toward an Optimal Initial Grid for CFD”, 43rd AIAA Aerospace Sciences Meeting, Reno, January 2005
  • W.G. Habashi, Keynote Address, “Mesh Adaptation, from Qualitative to Quantitative CFD”, Pacing CFD, Stanford University, November 2004
  • W.G. Habashi, Keynote Address, “In-flight Icing, Pacing CFD”, Pacing CFD, Stanford University, November 2004
  • F. Suerich-Gulick, C.Y. Lepage and W.G. Habashi, “Automatic Mesh Adaptation: Towards User-Independent CFD”, Keynote Lecture, The 4th International Conference on Engineering Computational Technology, Lisbon, Portugal, September 2004
  • W.G. Habashi, M. Aubé, G. Baruzzi, F. Morency, P. Tran, J.C. Narramore, P. Petersen and M. Liggett, “FENSAP-ICE: Full-3D In-Flight Icing Simulation System for Aircraft, Rotorcraft and UAVs”, ICAS, Yokohama, Japan, August 2004
  • F. Suerich-Gulick, C.Y. Lepage and W.G. Habashi, “Anisotropic 3-D Mesh Adaptation for Turbulent Flows, AIAA Paper 2004-2533, 34th AIAA Fluid Dynamics Conference, Portland, July 2004
  • C.Y. Lepage, A. St-Cyr and W.G. Habashi, “Parallel Unstructured Mesh Adaptation on Distributed Memory Systems”, AIAA Paper 2004-2532, 34th AIAA Fluid Dynamics Conference, Portland, July 2004
  • C.Y. Lepage, A. St-Cyr and W.G. Habashi, “MPI Parallelization of Unstructured Mesh Adaptation”, Third International Conference on CFD (ICCFD3), Toronto, July 2004
  • L. Remaki and W.G. Habashi, “Optimal Initial Grid Generation for Subsonic and Transonic Viscous Flows”, CFD 2004, Ottawa, June 2004
  • F. Suerich-Gulick, C. Lepage and W.G. Habashi, “Anisotropic Adaptation for 3-D Unstructured Meshes for Turbulent Flows”, CFD 2004, Ottawa, June 2004
  • W.G. Habashi et al, Keynote Speech, “Le maillage adaptatif: vers une CFD de qualité”, Keynote Address, CFT’04: Colloque Franco-Tunisien sur les Méthodes Numériques Appliquées aux Écoulements et aux Transferts, pp. 1-8, 23-24 avril 2004, Monastir, Tunisie
  • W.G. Habashi et al, Keynote Speech, “Rôle de la CFD dans la simulation du givrage en vol”, Keynote Address, CFT’04: Colloque Franco-Tunisien sur les Méthodes Numériques Appliquées aux Écoulements et aux Transferts, pp. 15-22, 23-24 avril 2004, Monastir, Tunisie
  • F. Taghaddosi, W.G. Habashi, G.G. Guèvremont and A. St-Cyr, “3D Computation of Noise Propagation from Ducted Fans, using a Spectral Element Method”, AIAA Paper 2004-0520, 42nd AIAA Aerospace Sciences Meeting, Reno, January 2004
  • L. Remaki, C. Lepage and W.G. Habashi, “Efficient Anisotropic Mesh Adaptation on Weak and Multiple Shocks”, AIAA Paper 2004-0084, 42nd AIAA Aerospace Sciences Meeting, Reno, January 2004
  • P. Tran, G. Baruzzi, F. Tremblay, W.G. Habashi P. Petersen, M. Liggett, J. Vos, “FENSAP-ICE Applications to Unmanned Aerial Vehicles (UAV)”, AIAA Paper 2004-0402, 42ndAIAA Aerospace Sciences Meeting, Reno, January 2004
  • P. Lagacé, C. Lepage, W.G. Habashi and M. Fortin, “Automatic CAD Reconstruction for CAD-Based Anisotropic Mesh Smoothing and Adaptation”, AIAA Paper 2004-0085, 42nd AIAA Aerospace Sciences Meeting, Reno, January 2004
  • W.G. Habashi, H. Beaugendre, F. Morency, “Development of a Second Generation In-Flight Icing Simulation Code”, FEDSM2003-45816, Keynote Lecture, Proceedings of FEDSM’03 4th ASME-JSME Joint Fluids Engineering Conference, Honolulu, Hawaii, USA, July 6–11, 2003
  • P. Tran, G. Baruzzi, I. Akel, W.G. Habashi and J.C. Narramore, “FENSAP-ICE Applications to Complete Rotorcraft Configurations”, Paper 03FAAID-49, FAA In-flight Icing/Ground De-icing International Conference & Exhibition, Washington, June 2003
  • H. Beaugendre, F. Morency and W.G. Habashi, “FENSAP-ICE: A Second Generation 3D CFD In-flight Icing Simulation System”, Paper 03FAAID-50, FAA In-flight Icing/Ground De-icing International Conference & Exhibition, Washington, June 2003
  • J.C. Narramore P. Tran, G. Baruzzi, W.G. Habashi, I. Akel and S. Balage, “ICE Accretion Computations for Full Tiltrotor Configurations”, American Helicopter Society 59th Annual Forum, Phoenix, Arizona, May 6 – 8, 2003
  • M. Bogstad, C. Kho, F. Mokhtarian, C.Y. Lepage, L. Remaki and W.G. Habashi, “Geometrical- and Solution-based Mesh Adaptation on a NASA Semi-Span Flap”, CASI Aerospace Symposium Proceedings, Montreal, May 2003
  • C.Y. Lepage, L. Remaki and W.G. Habashi, “Advances in CFD Mesh Optimization”, Invited paper, Proceedings “Grand Review of the State-of-the-Art in the Numerical Simulation of Fluid Flow”, I Mech. E, London, U.K., December 2002.
  • G. Croce, W.G. Habashi and H. Beaugendre, “Conjugate Heat Transfer Computations of Flows with Droplet Impingement”, TED-J03-125, 6th ASME-JSME Thermal Engineering Joint Conference, Hawaii, March 2003
  • L. Remaki, H. Beaugendre and W.G. Habashi, “An Anisotropic Isovalue-Oriented Artificial Viscosity Method”, AIAA Paper 2003-0073, 41st AIAA Aerospace Sciences Meeting, Reno, January 2003
  • F. Morency, H. Beaugendre and W.G. Habashi, “FENSAP-ICE: Effect of Pressure Gradient on 3D Eulerian Droplet Impingement”, AIAA Paper 2003-1222, 41st AIAA Aerospace Sciences Meeting, Reno, January 2003
  • H. Beaugendre, F. Morency and W.G. Habashi, “FENSAP-ICE: Roughness Effects on Ice Accretion Prediction”, AIAA Paper 2003-1223, 41st AIAA Aerospace Sciences Meeting, Reno, January 2003
  • G. Baruzzi, P. Tran, W.G. Habashi and J.C. Narramore, “Actuator Disk Implementation in FENSAP-ICE, a 3D Navier-Stokes In-Flight Simulation System”, AIAA Paper 2003-0619, 41st AIAA Aerospace Sciences Meeting, Reno, January 2003
  • J.C. Narramore, G. Baruzzi, P. Tran and W.G. Habashi, “FENSAP-ICE: Progress Towards a Rotorcraft Full-3D In-Flight Icing Simulation System”, AIAA Paper 2003-0024, 41st AIAA Aerospace Sciences Meeting, Reno, January 2003
  • P. Tran, S. Balage, G. Croce, F. Lafond and W.G. Habashi, “FENSAP-ICE: A Multi-disciplinary, Multi-component, Integrated Design Tool, and its Application to Ice Protection Systems”, ASME International Design Engineering Conference, Montreal, September 2002
  • W.G. Habashi, C.Y. Lepage, G.S. Baruzzi and I. Akel, “OPTIMESH: Anisotropic Mesh Adaptation with CAD Integrity for Verifiably Accurate CFD Solutions Over Complete Aircraft”, NATO Applied Vehicle Technology Panel Symposium, Paris, April 2002
  • W.G. Habashi, P. Tran, G.S. Baruzzi, M. Aubé and P. Benquet, “Design of Ice Protection Systems and Icing Certification through the FENSAP-ICE System”, NATO Applied Vehicle Technology Panel Symposium, Paris, April 2002
  • F. Morency, H. Beaugendre and W.G. Habashi, “Effect of Pressure Gradient on Droplet Impingement and Ice Shape Calculations”, Proceedings CFD Society of Canada Meeting, June 2002, Windsor, ON, pp. 299-304
  • M. Remaki, W.G. Habashi, D. Ait-Ali-Yahia and A. Jay, “Discontinuous Galerkin Method for 3-D Buzz-saw Noise Propagation”, Proceedings CFD Society of Canada Meeting, June 2002, Windsor, ON, pp. 234-239
  • L. Remaki, H. Beaugendre and W.G. Habashi, “An Anisotropic Isovalue-oriented Artificial Viscosity Method for CFD”, Proceedings CFD Society of Canada Meeting, June 2002, Windsor, ON, pp. 222-227
  • P. Tran, S. Balage, G. Baruzzi, I. Akel, W.G. Habashi and J.C. Narramore, “Reducing Icing Certification Flight Tests through Second Generation 3-D CFD-based Technologies”, Abstract (58-06), 58th American Helicopter Society International FORUM, June 11-13, 2002, Montreal, Canada
  • G.S. Baruzzi, P. Tran and W.G. Habashi and J.C. Narramore, “A New Actuator Disk FEM Model For Propellers”, 58th American Helicopter Society International FORUM, June 11-13, 2002, Montreal, Canada
  • C.Y. Lepage, L. Remaki and W.G. Habashi, “Anisotropic 3-D Mesh Adaptation on Unstructured Hybrid Meshes”, AIAA Paper 2002-7318, 40th AIAA Aerospace Sciences Meeting, Reno, January 2002
  • H. Beaugendre, F. Morency and W.G. Habashi, “ICE3D, FENSAP-ICE’s 3D In-Flight Ice Accretion Module”, AIAA Paper 2002-7134, 40th AIAA Aerospace Sciences Meeting, Reno, January 2002
  • G. Croce, H. Beaugendre and W.G. Habashi, “CHT3D, FENSAP-ICE Conjugate Heat Transfer Computations with Droplet Impingement and Runback Effects”, AIAA Paper 2002-7212, 40th AIAA Aerospace Sciences Meeting, Reno, January 2002
  • P. Tran, P. Benquet, G.S. Baruzzi and W.G. Habashi, “Design of Ice Protection Systems and Icing Certification Through Cost-effective Use of CFD”, AIAA Paper 2002-0382, 40th AIAA Aerospace Sciences Meeting, Reno, January 2002
  • M. Remaki, W.G. Habashi, D. Ait-Ali-Yahia and A. Jay, “A Discontinuous Galerkin Method for Multiple Pure Tone Noise in Gas Turbines”, AIAA Paper 2002-0229, 40th AIAA Aerospace Sciences Meeting, Reno, January 2002
  • M. Remaki and W.G. Habashi, “Discontinuous Galerkin Method for 3-D Computational Aero-acoustics”, CFD2001, Waterloo, June 2001
  • F. Morency, H. Beaugendre, G.S. Baruzzi and W.G. Habashi, “FENSAP-ICE: A Comprehensive 3D Simulation Tool for In-flight Icing”, AIAA Paper 2001-2566, 15th AIAA Computational Fluid Dynamics Conference, Anaheim, CA, June 2001
  • G. Croce, H. Beaugendre and W.G. Habashi, “FENSAP-ICE: Numerical Simulation of Heat Transfer in Mist Flows”, ICHMT Computational Heat Transfer 2001, Palm Cove, Australia, May 2001, pp. 1283-1290
  • F. Morency, H. Beaugendre and W. Habashi, “FENSAP-ICE: A Navier-Stokes Eulerian Droplet Impingement Approach for High-lift Devices”, 8th Aerodynamics Symposium, CASI, Toronto, April 2001
  • H. Beaugendre, F. Morency and W. Habashi, “ICE3D, FENSAP-ICE's 3D In-flight Ice Accretion Module”, 8th Aerodynamics Symposium, CASI, Toronto, April 2001
  • G.S. Baruzzi, C. Lepage, I. Akel and W.G. Habashi, “MOM3D: CAD-based Mesh Adaptation for CFD Solutions over Complete Aircraft”, 8th Aerodynamics Symposium, CASI, Toronto, April 2001
  • A. Tam, D. Ait-Ali-Yahia, M.P. Robichaud, M. Peeters, V. Kozel and W.G. Habashi, “Three-dimensional Anisotropic Adaptation for Viscous External and Turbomachinery Flows”, AIAA Paper 2000-2248, AIAA Fluids 2000, Denver, June 2000
  • D. Stanescu, D. Ait-Ali-Yahia, W.G. Habashi and M.P. Robichaud, “Galerkin Spectral Element Method for Fan Tone Radiation Computations”, AIAA Paper 2000-1912, 6th AIAA/CEAS Aeroacoustics Conference, Hawaii, June 2000
  • C.Y. Lepage and W.G. Habashi, “Conservative Interpolation of Aerodynamic Loads for Aero-elastic Computations”, AIAA Paper 2000-1449, 41st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Atlanta, April 2000
  • Akel, W.G. Habashi and H.S. Moustapha, “Toward CFD-Based Correlations for Single-stage High-pressure Transonic Turbine Stage”, 8th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery (ISROMAC-8), Honolulu, Hawaii, March 2000
  • D. Ait-Ali-Yahia, D. Stanescu, M.P. Robichaud and W.G. Habashi, “Spectral Element Grid Generation and Nonlinear Computations from Noise Radiation from Aircraft Engines”, AIAA Paper 99-1832, 5th AIAA/CEAS Aeroacoustics Conference, Bellevue, May 1999
  • W.G. Habashi, V. Kozel, A. Tam, D. Ait-Ali-Yahia, M.P. Robichaud and M. Moore, "Anisotropic Mesh Adaptation for 3-D Flows on Unstructured Grids", Proceedings ICEM CFD Users’ Conference’99, Berkeley, USA, May 1999
  • M.C. Bogstad, W.G. Habashi, D. Ait-Ali-Yahia, L. Metcalfe, N. Giannias and V. Longo, “CFD Navy Ships Airwake Analysis for a Helicopter Flight Simulator”, AIAA Paper 99-0996, 37th AIAA Aerospace Sciences Meeting, Reno, January 1999
  • Y. Bourgault, W.G. Habashi and E. Beaugendre, “Development of a Shallow-Water Icing Model in FENSAP-ICE”, AIAA Paper 99-0246, 37th AIAA Aerospace Sciences Meeting, Reno, January 1999
  • C.Y. Lepage and W.G. Habashi, “Fluid-Structure Interactions Using the ALE Formulation”, AIAA Paper 99-0660, 37th AIAA Aerospace Sciences Meeting, Reno, January 1999
  • W.G. Habashi, M.P. Robichaud, S.H. Moustapha, G.J. Guèvremont and M.F. Peeters, “A Practical and Effective Approach to CFD Education, Through a University-Industry Technology Exchange Perspective”, AIAA Paper 99-1056, Invited Paper at 37th AIAA Aerospace Sciences Meeting, Reno, January 1999
  • D. Ait-Ali-Yahia, D. Stanescu, W.G. Habashi and M.P. Robichaud, “Axisymmetric Computations of Fan Noise Radiation from the PW545 Turbofan Inlet”, AIAA Paper 99-0483, 37th AIAA Aerospace Sciences Meeting, Reno, January 1999
  • L.C. Dutto, C.Y. Lepage and W.G. Habashi, “Impact of Storage of Sparse Linear Systems in CFD Computations”, AIAA Paper 99-0298, 37th AIAA Aerospace Sciences Meeting, Reno, January 1999
  • M.P. Robichaud, M.F. Peeters and W.G. Habashi, “Recent CFD Multidisciplinary Applications at Pratt & Whitney Canada”, invited presentation at Special Technological Session on CFD in Turbomachinery, Complementary Proceedings of Fourth European Computational Fluid Dynamics Conference (ECCOMAS), Athens, September 1998, Paper 16
  • V. Kozel, W.G. Habashi, A. Tam, M.P. Robichaud, M. Bogstad, A. Wulf and M. Hohmeyer, “Mesh Optimization: Tight Coupling of Mesh Generation and Solver, with CAD Integrity”, Proceedings of the Fourth European Computational Fluid Dynamics Conference (ECCOMAS), Athens, September 1998, pp. 114-118, Volume 1, part 1
  • W.G. Habashi, Y. Bourgault, G.S. Baruzzi, Z. Boutanios, G. Croce and G.A. Wagner, “FENSAP-ICE: An Integrated CFD Approach to the In-Flight Icing Problem”, Invited paper at Special Technological Session on Icing and De-Icing, Proceedings Fourth European Computational Fluid Dynamics Conference (ECCOMAS), Athens, September 1998, pp. 512-517, Volume 2
  • Y. Bourgault, E. Beaugendre, W.G. Habashi, C.Y. Lepage and G. Croce, “FENSAP-ICE: A New Equilibrium Model for Ice Accretion, including Film Runback and Conjugate Heat Transfer”, Proceedings of the Fourth European Computational Fluid Dynamics Conference (ECCOMAS), Athens, September 1998, pp. 723-728, Volume 1, part 2
  • Tam, M.P. Robichaud, P. Tremblay, W.G. Habashi, M. Hohmeyer, G. Guèvremont, M.F. Peeters and D. Ait-Ali-Yahia, “A 3-D Adaptive Finite Element Method for Aerodynamic Flows”, Proceedings CFD98, Quebec City, June 1998, pp. II-63-II-68
  • W.G. Habashi and A. Wulf, “3D Mesh Adaptation, with CAD Integrity”, Invited Paper, Proceedings of the World User Association in Applied CFD Conference, Freiburg, Germany, June 1998, pp. 22.1-22.6
  • W.G. Habashi and D. Stanescu, “Validation of a Multi-domain Spectral Method for Fan Noise Prediction”, AIAA Paper 98-2266, 4th AIAA/CEAS Aeroacoustics Conference, Toulouse, June 1998
  • W.G. Habashi, “Putting Computer on Ice: A CFD Integrated Approach to the In-Flight Icing Problem, Keynote Lecture, 13th Canadian Symposium on Fluid Dynamics (CSFD-98) 19th Annual Meeting of the Canadian Applied and Industrial Mathematics Society (CAIMS-98), Simon Fraser University, Vancouver, May 1998, pp. 58-59
  • Z. Boutanios, Y. Bourgault, W.G. Habashi, G.A. Isaac and S.G. Cober, “3D Droplets Impingement Analysis Around an Aircraft's Nose and Cockpit Using FENSAP-ICE”, AIAA Paper 98-0200, 36th AIAA Aerospace Sciences Meeting, Reno, January 1998
  • G. Croce, W.G. Habashi, G. Guèvremont and F. Tezok, “3D Thermal Analysis of an Anti-Icing Device Using FENSAP-ICE”, AIAA Paper 98-0193, 36th AIAA Aerospace Sciences Meeting, Reno, January 1998
  • Tam, M.P. Robichaud, P. Tremblay, W.G. Habashi, M. Hohmeyer, G. Guèvremont, M.F. Peeters and P. Germain, “A 3D Adaptive Anisotropic Method for External and Internal Flows”, AIAA Paper 98-0771, 36th AIAA Aerospace Sciences Meeting, Reno, January 1998
  • W.G. Habashi, Y. Bourgault, J. Dompierre, G. Baruzzi and D. Cronin, “A Modern CFD Look at In-Flight Icing Phenomena”, Proceedings of the 16th Canadian Congress of Applied Mechanics, Quebec City, June 1997, pp. 309-310
  • D. Ait-Ali-Yahia and W.G. Habashi, “Computation of Nonequilibrium Hypersonic Flows over Blunt Bodies”, Proceedings of the 16th Canadian Congress of Applied Mechanics, Quebec City, June 1997, pp. 317-318
  • J. Dompierre, D. Cronin, Y. Bourgault, G. Baruzzi and W.G. Habashi, “Numerical Simulation of Performance Degradation of Ice Contaminated Airfoils”, AIAA Paper 97-2235, 15th AIAA Applied Aerodynamics Conference, Atlanta, June 1997
  • F. Taghaddosi, W.G. Habashi, G. Guèvremont and D. Ait-Ali-Yahia, “An Adaptive Least-Squares Method for the Compressible Euler Equations”, AIAA Paper 97-2097, 13th AIAA Computational Fluid Dynamics Conference, Snowmass, June 1997
  • D. Stanescu and W.G. Habashi, “Two-dimensional Shock-Sound Interaction on Unstructured Meshes”, AIAA Paper 97-1606, 18th AIAA Aeroacoustics Conference, Atlanta, May 1997
  • N. Ben Salah, A. Soulaimani, W.G. Habashi and M. Fortin, “A Conservative Stabilized Finite Element Method for the Magneto-Hydrodynamics Equations”, Advances in Computational Engineering Science, Proceedings of ICES'97, Costa Rica, May 1997, S.N. Atluri and G. Yagawa (Eds), Tech Science Press, pp. 269-276
  • L.C. Dutto, W.G. Habashi and M. Fortin, “An Algebraic Multilevel Parallelizable Preconditioner for Large-scale Computations”, 8th Copper Mountain Conference on Multigrid Methods, April 1997
  • W.G. Habashi and Y. Bourgault, “Une approche moderne pour la simulation numérique des problèmes du givrage en vol”, Canada-France Aerospace Workshop, Concordia University, Montreal, May 1997
  • W.G. Habashi, “Anisotropic Mesh Optimization: Toward Mesh-User, and Solver-Independent CFD, Invited Lecture, Proceedings of the CFD’97 Conference of the Canadian Society for CFD, Victoria, British Columbia, May 1997, pp. 5.3-5.6
  • J. Dompierre, D. Cronin, Y. Bourgault, G. Baruzzi and W.G. Habashi, “Numerical Simulation of Performance Degradation due to Small-scale Roughness”, 6th Canadian Aeronautics and Space Institute Aerodynamics Symposium, Toronto, April 1997
  • W.G. Habashi, Y. Bourgault, J. Dompierre, G. Baruzzi and D. Cronin, “Putting Computers on Ice: A CFD Integrated Approach to the In-Flight Icing Problem”, 6th Canadian Aeronautics and Space Institute Aerodynamics Symposium, Toronto, April 1997
  • D. Stanescu and W.G. Habashi, “Essentially Non-Oscillatory Euler Solutions on Unstructured Meshes Using Extrapolation”, AIAA Paper 97-0539, 35th AIAA Aerospace Sciences Meeting, Reno, January 1997
  • . L.C. Dutto, W.G. Habashi and M. Fortin, “An Algebraic Two-Level Parallelizable Preconditioner for the Compressible Navier-Stokes Equations”, AIAA Paper 97-0448, 35th AIAA Aerospace Sciences Meeting, Reno, January 1997
  • . Y. Bourgault, W.G. Habashi, J. Dompierre, G.S. Baruzzi and G. Chevalier, “An Eulerian Approach to Supercooled Droplets Impingement Calculation”, AIAA Paper 97-0176, 35th AIAA Aerospace Sciences Meeting, Reno, January 1997
  • D. Ait-Ali-Yahia and W.G. Habashi, “A Finite Element Segregated Method for Hypersonic Thermo-Chemical Non-equilibrium Flows, Using Adaptive Grids”, AIAA Paper 97-0981, 35th AIAA Aerospace Sciences Meeting, Reno, January 1997
  • M.P. Robichaud, W. Di Bartolomeo, K. Heikurinen and W.G. Habashi, “Turboprop Air Intake Design Using 3-D Viscous Analysis”, AIAA Paper 97-0171, 35th AIAA Aerospace Sciences Meeting, Reno, January 1997
  • J. Dompierre, M.-G. Vallet, M. Fortin and W.G. Habashi, “Anisotropic Mesh Adaptation: Towards a Solver and User Independent CFD”, AIAA Paper 97-0861, 35th AIAA Aerospace Sciences Meeting, Reno, January 1997
  • W.G. Habashi, M. Fortin, J. Dompierre, M-G. Vallet and Y. Bourgault, “A Mesh Optimizer for CFD”, 6th ASME International Congress on Fluid Dynamics & Propulsion, Cairo, December 1996, pp. 1-8
  • D. Ait-Ali-Yahia and W.G. Habashi, “A Loosely Coupled Approach for Equilibrium and Nonequilibrium Hypersonic Flows on Optimized Quadrilateral Meshes”, 6th ASME International Congress on Fluid Dynamics & Propulsion, Cairo, December 1996, pp. 19-29
  • D. Stanescu and W.G. Habashi, “Numerical Experiments with Algebraic Multigrid Using Non-stationary Relaxation”, European Multigrid Conference '96, Stuttgart, October 1996
  • M. Fortin, M.-G. Vallet, J. Dompierre, Y. Bourgault and W.G. Habashi, “Anisotropic Mesh Adaptation: Theory, Validation and Applications, Proceedings of the Third European Computational Fluid Dynamics Conference (ECCOMAS), Paris, John Wiley, September 1996, pp. 174-180
  • G. Houzeaux, W.G. Habashi, G. Guèvremont and G.S. Baruzzi, “k-w Turbulence Model for the Solution of 2-D Internal Flows by the FEM”, Proceedings of the Third European Computational Fluid Dynamics Conference (ECCOMAS), Paris, John Wiley, September 1996, pp. 359-365
  • Y. Bourgault, W.G. Habashi, J. Dompierre, G. Baruzzi, G. Chevalier and W. DiBartolomeo, “An Eulerian Computational Approach to Ice Droplets Impingement, Proceedings of the Third European Computational Fluid Dynamics Conference (ECCOMAS), Paris, John Wiley, September 1996, pp. 827-833
  • W.G. Habashi and M. Fortin, “Anisotropic Mesh Adaptation: A Step towards a Grid-independent and User-independent CFD”, Invited Keynote Address at ICASE-NASA Langley Research Center Workshop on Barriers and Challenges in CFD, Hampton, VA, August 1996, Kluger Academic, pp. 99-117
  • D. Ait-Ali-Yahia and W.G. Habashi “A Directionally-Adaptive Finite Element Method for High-Speed Flows”, AIAA Paper 96-2553, 32nd AIAA/ASME/SAE/ASEE Joint Propulsion Conference, Lake Buena Vista, July 1996
  • A. Tam, W.G. Habashi, D. Ait-Ali-Yahia, M.P. Robichaud and M. Fortin “A 3-D Adaptive Finite Element Method for Turbomachinery”, AIAA Paper 96-2659, 32nd AIAA/ASME/SAE/ASEE Joint Propulsion Conference, Lake Buena Vista, July 1996
  • M-G. Vallet, Y. Bourgault, J. Dompierre, M. Fortin and W.G. Habashi, “A Directional Error Estimator for CFD”, Proceedings of the ASME Fluids Engineering Division Summer Meeting, FED-Vol. 238, Volume 3, pp. 209-215, San Diego, July 1996
  • J.M. Zhou, M.P. Robichaud, M.F. Peeters and W.G. Habashi, “A Finite Element Method for Heat Transfer Prediction in Cooled Turbine Blades, Proceedings of the ASME Fluids Engineering Division Summer Meeting, FED-Vol. 238, Volume 3, pp. 299-307, San Diego, July 1996
  • M. Sleiman, A. Tam, M.P. Robichaud, M.F. Peeters, W.G. Habashi and M. Fortin, “Turbomachinery Multistage Simulation by a Finite Element Adaptive Approach”, ASME Paper 96-GT-418, 41st ASME Gas Turbine and Aeroengine Congress, Birmingham, U.K., June 1996
  • Y. Bourgault, W.G. Habashi, J. Dompierre and G. Chevalier, “An Eulerian Approach to Ice Droplets Impingement”, 15th International Conference on Numerical Methods in Fluid Dynamics, Monterey, Springer-Verlag, June 1996, pp. 274-279
  • D. Ait-Ali-Yahia and W.G. Habashi “A Directionally-Adaptive Finite Element Method for Hypersonic Thermo-Chemical Non-equilibrium Flows”, 15th International Conference on Numerical Methods in Fluid Dynamics, Monterey, Springer-Verlag, June 1996, pp. 261-267
  • W.G. Habashi and M. Fortin, “Anisotropic Mesh Adaptation: Towards a Mesh-independent, User-Independent and Solver-Independent CFD”, Invited Workshop Address, World User Association in Applied CFD Conference, Freiburg, Germany, May 1996, pp. 13.1-13.4
  • W.G. Habashi and Ch. Hirsch, “Progress and Outlook for CFD in Turbomachinery”, Invited Workshop Address, World User Association in Applied CFD Conference, Freiburg, Germany, May 1996, pp. 20.6-20.12
  • Y. Bourgault, W.G. Habashi, J. Dompierre, G. Baruzzi and G. Chevalier, “A Finite Element Eulerian Approach to Ice Droplets Impingement”, FAA International Conference on Aircraft Inflight Icing, Springfield, May 1996, Vol. II, pp. 275-284
  • J.M. Zhou, M.P. Robichaud, W.G. Habashi and W.S. Ghaly, “CFD Predictions of Flow and Heat Transfer in the Coolant Passages of Gas Turbine Blades”, AIAA Paper 96-0450, 34th Aerospace Sciences Meeting, Reno, January 1996
  • L.C. Dutto, G. Yang, M. Fortin and W.G. Habashi, “Solution of the Navier-Stokes Equations by a Parallelizable Block Broyden Method”, Proceedings of the Ninth Finite Elements in Fluids Conference, Venice, Italy, October 1995, Vol. II, pp. 1151-60
  • M. Fortin, Y. Bourgault, W.G. Habashi, J. Dompierre and M-G. Vallet, “Mesh Adaptation for Viscous Compressible Flows”, Proceedings of the Ninth Finite Elements in Fluids Conference, Venice, Italy, October 1995, Vol. II, pp. 1171-80
  • W. DiBartolomeo, P.L. Kotiuga and W.G. Habashi, “Certification Test Design Using CFD”, Proceedings of the American Helicopter Society International Icing Symposium '95, pp. 43-51, Montreal, September 1995
  • D. Ait-Ali-Yahia, A. Tam, W.G. Habashi, M.G. Vallet and M. Fortin, "An Adaptive Moving-node Scheme for Compressible Flows", Proceedings of the Sixth International Symposium on Computational Fluid Dynamics, Lake Tahoe, September 1995, Vol. IV, pp. 1-6
  • 131. J. Dompierre, M.-G. Vallet, M. Fortin, W.G. Habashi, D. Ait-Ali-Yahia, S. Boivin, Y. Bourgault and A. Tam, “Edge-Based Mesh Adaptation for CFD”, Proceedings of the Conference on Numerical Methods for the Euler and Navier-Stokes Equations, Centre de Recherches Mathématiques, SIAM, Montreal, September 1995
  • W.G. Habashi, M.P. Robichaud, L.C. Dutto and M. Fortin, “Parallel Finite Element Methodology for Turbomachinery Calculations”, ICES'95, Hawaii, August 1995
  • M.P. Robichaud, L.C. Dutto, M.F. Peeters, W.G. Habashi and M. Fortin, “Parallel Finite Element Methodology for Turbomachinery Calculations”, 42nd CASI Annual Conference, Montreal, May 1995, pp. 51-54
  • J.-M. Zhou, M.P. Robichaud, W.S. Ghaly, W.G. Habashi and A. Riahi, “CFD Predictions of Heat Transfer, with Applications to Turbine Blade Cooling”, 42nd CASI Annual Conference, Montreal, May 1995, pp. 83-86
  • W.S. Ghaly, W.G. Habashi and M.F. Peeters, “Assessment of a Finite Element Method for Turbomachinery Flows”, 42nd CASI Annual Conference, Montreal, May 1995, pp. 55-58
  • D. Ait-Ali-Yahia, W.G. Habashi and G.S. Baruzzi, “Numerical Simulation of Hypersonic Reacting Flows using a Finite Element Method”, 42nd CASI Annual Conference, Montreal, May 1995, pp. 29-32
  • W.G. Habashi, M.P. Robichaud, L.C. Dutto and M.F. Peeters, “An Efficient Finite Element Approach for Turbomachinery Calculations”, Invited Paper, Proceedings of the First Asian CFD Conference, Hong Kong, January 1995, Vol. 1, pp. 71-80
  • M.P. Robichaud, W.G. Habashi, M.F. Peeters and L.C. Dutto, “Parallel Finite Element Methodology for Turbomachinery Calculations”, Proceedings of the International Workshop on Solution Techniques for Large-Scale CFD Problems, Montreal, September 1994, pp. 43-59
  • D. Ait-Ali-Yahia, W.G. Habashi and G.S. Baruzzi, “A Finite Element Method for Hypersonic Reacting Flows”, Advances in Finite Element Analysis in Fluid Dynamics 1994, ASME Winter Annual Meeting, Chicago, November 1994, FED-Vol. 200, pp. 11-19
  • W.S. Ghaly, W.G. Habashi and M.F. Peeters, “Assessment of a Finite Element Solution Method for Viscous Compressible Flows in Gas Turbines”, Proceedings of the Second European Computational Fluid Dynamics Conference (ECCOMAS) (Invited Lectures and Special Technological Sessions), Stuttgart, Germany, September 1994, pp. 221-229
  • M. Fortin. M-G. Vallet, D. Poirier and W.G. Habashi, “Error Estimation and Directionally-Adaptive Meshing”, AIAA Paper 94-2211, AIAA 25th Fluid Dynamics Conference, Colorado Springs, June 1994
  • W.G. Habashi, “CFD in Turbomachinery”, Invited Workshop Address Proceedings of the World User Association in Applied CFD Conference, Basel, Switzerland, May 1994, pp. 25.1-25.6
  • W.G. Habashi, L.C. Dutto, M.P. Robichaud and M. Fortin, “A Parallel Strategy for the Solution of the Fully-Coupled Compressible Navier-Stokes Equations”, Advances in Finite Element Analysis in Fluid Dynamics 1993, ASME Winter Annual Meeting, New Orleans, November 1993, FED-Vol. 171, pp. 21-32
  • L.C. Dutto, W.G. Habashi and M. Fortin, “A Parallelizable ILU(0) Preconditioner for the Compressible and Transonic 2-D Navier-Stokes Equations”, Proceedings of the 8th International Conference on Finite Element in Fluids, Barcelona, Spain, September 1993, Pineridge Press, U.K., Vol. II, pp. 1221-1230
  • L.C. Dutto, W.G. Habashi, M.P. Robichaud and M. Fortin, “A Parallelizable Iterative Solver for Finite Element Viscous Compressible Flow Calculations”, Invited Paper, Proceedings of the 5th International Symposium on Computational Fluid Dynamics, Sendai, Japan, August 1993, Vol. IV, pp. 49-55
  • M. Chaaban, W.G. Habashi and J. Leduc, “A Finite Element Approach for Coupling Axisymmetric and Cartesian Domains in Underground Cable Applications”, Proceedings of the 8th International Conference on Numerical Methods in Thermal Problems, Swansea, Pineridge Press, U.K., July 1993, pp. 1565-1575
  • L.C. Dutto, W.G. Habashi, M. Fortin and M.P. Robichaud, “Parallelizable Block-Diagonal Preconditioners for 3D Viscous Compressible Flow Calculations”, AIAA Paper 93-3309, Proceedings of the 11th AIAA Computational Fluid Dynamics Conference, Orlando, July 1993, Vol. 2, pp. 135-143
  • W.G. Habashi, “CFD in Canada: Challenges and Promises”, Inaugural Address of the 1st Conference of the Canadian Society of CFD”, Montreal, June 1993
  • G.S. Baruzzi, W.G. Habashi and M.M. Hafez, “An Improved Finite Element Method for the Solution of the Compressible Euler and Navier-Stokes Equations”, Proceedings of the First European Computational Fluid Dynamics Conference (ECCOMAS), Brussels, Belgium, September 1992, Vol. II, pp. 643-650
  • G.S. Baruzzi, W.G. Habashi and M.M. Hafez, “A Second Order Method for the Finite Element Solution of the Euler and Navier-Stokes Equations”, Proceedings of the 13th International Conference on Numerical Methods in Fluid Dynamics, Springer Verlag, Roma, Italy, July 1992, pp. 509-513
  • M. Chaaban and W.G. Habashi, “A New Approach to Cable Ampacity Calculation Using the Finite Element Method”, Proceedings of the IEEE 91st Summer Meeting of the Insulated Conductors Committee, Birmingham, U.K., July 1992, Chapter 22
  • W.S. Ghaly, W.G. Habashi, M.F. Peeters, P.Q. Gauthier and M.P. Robichaud, “Finite Element Solution of Viscous Compressible Flows in Gas Turbine Components”, Proceedings of the 4th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery, Honolulu, April 1992, pp. 641-651
  • J. Strigberger, G.S. Baruzzi and W.G. Habashi, “Preconditioned Conjugate Gradient-Like Methods in the Finite Element Solution of the Euler Equations for Transonic and Supersonic Flows”, 4th International Symposium on Computational Fluid Dynamics, University of California, Davis, September 1991
  • W.G. Habashi, M.M. Hafez and G.S. Baruzzi, “A Second Order Finite Element Formulation for Viscous Transonic Flows”, 4th International Symposium on Computational Fluid Dynamics, University of California, Davis, September 1991
  • J. Strigberger and W.G. Habashi, “Application of AF-Preconditioned Conjugate Gradient-Like Methods to the Computation of Unsteady Incompressible Viscous Flows”, Proceedings of the 7th International Conference on Numerical Methods in Laminar and Turbulent Flow, Stanford, July 1991, pp. 1537-1547
  • W.G. Habashi, V-N. Nguyen and M.V. Bhat, “Large-Scale CFD Problems by Vector-Parallel Direct Solvers”, Parallel Computers in CFD, University of Stuttgart, Germany, June 1991
  • M.V. Bhat and W.G. Habashi, “Computational Fluid Dynamics at Pratt&Whitney Canada”, Proceedings of the 13th Canadian Congress of Applied Mechanics, June 1991
  • M.P. Robichaud and W.G. Habashi, “Iterative Solution Methods for the Steady-State Compressible Navier-Stokes Equations”, 1991 Meeting of the Canadian Applied Mathematics Society, Ottawa, May 1991
  • W.G. Habashi, M.F. Peeters, M.P. Robichaud, V-N. Nguyen and M.V. Bhat, “Finite Element Solution of Viscous Compressible Flows in Gas Turbine Ducts and Diffusers”, CFD Techniques for Propulsion Applications, AGARD Conference Proceedings 510, San Antonio, May 1991, pp. 31-1 to 31-11
  • V-N. Nguyen, W.G. Habashi and M.V. Bhat, “An Efficient Parallel-Vector Matrix Solver for Large-Scale Finite Element Computational Fluid Dynamics Using the IBM 3090 Supercomputer”, IBM Large-scale Analysis and Modeling Conference, Park City, April 1991
  • W.G. Habashi, M. Fortin, J.W.H. Liu, M.P. Robichaud, V-N. Nguyen and W.S. Ghaly, “Large-Scale Computational Fluid Dynamics by the Finite Element Method”, AIAA Paper 91-0120, AIAA 29th Aerospace Sciences Conference, Reno, January 1991
  • W.G. Habashi, M.V. Bhat and P.L. Kotiuga, “FEM Industrial-Academic Interaction in the Aerospace Industry”, Invited Paper, Proceedings of the 6th World Congress on Finite Element Methods, Banff, October 1990, pp. 240-246
  • W.G. Habashi, “Directions of Computational Mechanics Technology”, Panel Discussion at the 1990 International Computers in Engineering Conference, Boston, August 1990
  • W.G. Habashi, “The Use of Supercomputers in the Gas Turbine Industry”, Keynote Address at the Supercomputer World Conference”, San Diego, June 1990
  • W.G. Habashi, “Large-Scale CFD Problems by the Finite Element Method”, Keynote Address at the Ninth Canadian Symposium on Fluid Dynamics”, London, June 1990
  • V-N. Nguyen, W.G. Habashi and M.V. Bhat, “Vector-Parallel Gauss Elimination Solver for Large-Scale Finite Element Computational Fluid Dynamics”, Proceedings of the Supercomputing Symposium '90, Montreal, June 1990, pp. 363-369
  • W.G. Habashi, “Direct Solvers for Large Scale CFD Problems”, Invited Address at the Symposium on Recent Developments in Large-Scale Computational Fluid Dynamics”, Minnesota Supercomputer Institute, Minneapolis, April 23, 1990 (published in CMAME Journal)
  • M.F. Peeters, W.G. Habashi, B.Q. Nguyen and P.L. Kotiuga, “Finite Element Solutions of the Navier-Stokes Equations for Compressible Internal Flows”, AIAA Paper 90-0441, AIAA 28th Aerospace Sciences Conference, Reno, January 1990
  • . G.S. Baruzzi, W.G. Habashi and M.M. Hafez, “Finite Element Solutions of the Euler Equations for Transonic External Flows”, AIAA Paper 90-0405, AIAA 28th Aerospace Sciences Conference, Reno, January 1990
  • G. Guèvremont, W.G. Habashi, P.L. Kotiuga and M.M. Hafez, “Finite Element Solution of the 3-D Compressible Navier-Stokes Equations by a Velocity-Vorticity Method”, AIAA Paper 90-0404, AIAA 28th Aerospace Sciences Conference, Reno, January 1990
  • W.G. Habashi, J.W.H. Liu, M.V. Bhat, V-N. Nguyen and M.F. Peeters, “Direct Solvers and Sparse Matrix Technology in the Solution of the 3-D Navier-Stokes Equations”, Invited Paper, 1st CASI Symposium on Aerodynamics, Ottawa, December 1989
  • W.G. Habashi, M.F. Peeters and G.S. Baruzzi, “Computational Fluid Dynamics by Direct Solvers”, Proceedings of the 10th Brazilian Congress of Mechanical Engineering, Rio de Janeiro, Brazil, December 1989
  • W.G. Habashi, G.S. Baruzzi, M.M. Hafez and M.F. Peeters, “A Newton-Galerkin Direct Scheme for the Solution of the Euler and Navier-Stokes Equations”, Proceedings of the First Soviet-US Workshop in Computational Aerodynamics, Tashkent, Uzbekistan, October 1989
  • W.G. Habashi, G.S. Baruzzi and M.F. Peeters, “A Newton-Galerkin Algorithm for Computational Fluid Dynamics”, Invited Paper, International Symposium on Computational Fluid Dynamics, Nagoya, Japan, August 1989, pp. 347-352
  • M.F. Peeters and W.G. Habashi, “Finite Element Solutions of the Three-Dimensional Navier-Stokes Equations”, Proceedings of the 7th International Conference on Finite Element Methods in Flow Problems, Huntsville, April 1989, pp. 830-835
  • W.G. Habashi, G. Guèvremont and M.M. Hafez, “Finite Element Solution of the Navier-Stokes Equations by a Velocity-Vorticity Method”, Invited Paper, Proceedings of the First International Conference on Computational Methods in Flow Analysis, Okayama, Japan, September 1988, pp. 312-319.
  • G.S. Baruzzi, W.G. Habashi and M.M. Hafez, “Non-Unique Solutions of the Euler Equations”, Invited Paper at the Holt Symposium, 11th International Conference on Numerical Methods in Fluid Dynamics, Williamsburg, June 1988 (see chapters in books)
  • G. Guèvremont, W.G. Habashi, M.M. Hafez and M.F. Peeters, “A Velocity-Vorticity Finite Element Formulation of the Compressible Navier-Stokes Equations”, Invited Paper, Proceedings of the 4th International Conference on Computational Engineering Science, Atlanta, April 1988, Springer-Verlag, pp. 51.x.1-51.x.4.
  • S.M. Przybytkowski, M.F. Peeters, W.G. Habashi and M.M. Hafez, “Transonic Viscous Internal Flow Calculations by a Finite Element Method”, Proceedings of the 5th International Conference on Numerical Methods in Laminar and Turbulent Flow, Montreal, July 1987, Pineridge Press, pp. 2115-2125
  • S.M. Przybytkowski, W.G. Habashi, M.F. Peeters and M.M. Hafez, “Finite Element Viscous/Inviscid Interaction Procedures for the Solution of the Compressible Navier-Stokes Equations”, 34th Annual General Meeting of the Canadian Aeronautics and Space Institute, Toronto, May 1987
  • W.G. Habashi, “The Finite Element Method in Transonic Flows: From Inviscid Flows to Navier-Stokes Equations”, Keynote Address at the Aerodynamics Symposium on Computational Fluid Dynamics, 34th Annual General Meeting of the Canadian Aeronautics and Space Institute, Toronto, May 1987
  • W.G. Habashi, M.M. Hafez, S.M. Przybytkowski and M.F. Peeters, “Compressible Internal Flow Calculations by a Finite Element Method”, AIAA Paper 87-0644, AIAA 25th Aerospace Sciences Conference, Reno, January 1987
  • W.G. Habashi, M.F. Peeters, G. Guèvremont and M.M. Hafez, “Finite Element Solutions of the Compressible Navier-Stokes Equations”, Third International Conference on Computational Methods and Experimental Measurements, Porto Carras, Greece, Springer-Verlag, September 1986, pp. 151-163
  • M.F. Peeters, W.G. Habashi and M.M. Hafez, “Finite Element Stream Function-Vorticity Solutions of 2-D Compressible Turbulent Flows”, Proceedings of the Sixth International Symposium on Finite Element Methods in Flow Problems, Antibes, France, June 1986, INRIA, pp. 97-102
  • W.G. Habashi, M.F. Peeters and E.G. Dueck, “Calculation of Internal Viscous Flows”, AIAA Paper 85-1124, AIAA/SAE/ASME 21st Joint Propulsion Conference, Monterey, July 1985
  • M.F. Peeters, W.G. Habashi and E.G. Dueck, “Finite Element Solutions of the Navier-Stokes Equations”, Proceedings of the 4th International Conference on Numerical Methods in Laminar and Turbulent Flow, Swansea, U.K., July 1985, Pineridge Press, pp. 433-444
  • W.G. Habashi, P.L. Kotiuga and L.A. McLean, “Finite Element Simulation of Transonic Flows by Modified Potential and Stream Function Methods”, Proceedings of the 2nd International Conference on Computational Methods and Experimental Methods, June 1984, Queen Elizabeth II, Springer-Verlag, pp. 31-42
  • M.M. Hafez, W.G. Habashi and P.L. Kotiuga, “Conservative Calculations of Non-Isentropic Transonic Flows”, AIAA Paper 84-1182, AIAA/SAE/ASME 20th Joint Propulsion Conference, Cincinnati, June 1984
  • W.G. Habashi, M.M. Hafez and P.L. Kotiuga, “Finite Element Methods for Internal Flow Calculations”, AIAA Paper 83-1404, AIAA/SAE/ASME 19th Joint Propulsion Conference, Seattle, June 1983
  • D.S. Breitman, E.G. Dueck and W.G. Habashi, “Finite Element Analysis of a Split-Flow Particle Separator”, Proceedings of the 3rd International Conference on Numerical Methods in Laminar and Turbulent Flow, Seattle, August 1983, Pineridge Press, pp. 477-488
  • W.G. Habashi and M.M. Hafez, “Finite Element Stream Function Solutions for Transonic Turbomachinery Flows”, AIAA Paper 82-1268, AIAA/SAE/ASME 18th Joint Propulsion Conference, Cleveland, June 1982
  • W.G. Habashi and M.M. Hafez, “The Finite Element Method in the Solution of Transonic Flows”, Proceedings of the Fourth International Conference for Mechanical Power Engineering, Cairo University, Egypt, Paper V-65, October 1982
  • W.G. Habashi, “Recent Progress in the Application of Finite Element Methods to Transonic Flows”, Invited Paper in Proceedings of 10th IMACS World Congress on Systems Simulation and Scientific Computation, Montreal, August 1982
  • W.G. Habashi and M.M. Hafez, “Finite Element Method for Transonic Cascade Flows”, AIAA Paper 81-1472, AIAA/SAE/ASME 17th Joint Propulsion Conference, Colorado Springs, July 1981
  • W.G. Habashi and P.L. Kotiuga, “Finite Element Solution of Subsonic and Transonic Cascade Flows”, Proceedings of the Second International Conference on Numerical Methods in Laminar and Turbulent Flow, Venice, Italy, July 1981, Pineridge Press, pp. 1253-1265
  • W.G. Habashi and P.L. Kotiuga, “Numerical Analysis of Transonic Turbomachinery”, Proceedings of the Third International Conference for Mechanical Power Engineering, Cairo University, Egypt, September 1980, pp. VII, 3.1 to VII 3.11
  • W.G. Habashi and P.L. Kotiuga, “Numerical Solution of Transonic Cascade Flows”, Presented at ASME Century 2 Emerging Technology Conference, Aerospace Conference, San Francisco, August 1980

Invited chapters in books

  • “Inno’va-tion: Essays by Leading Canadian Researchers” J. Downey and L. Claxton (Eds.), Key Porter Books, Toronto, 2002. Chapter Title: “Putting Supercomputers on Ice”, Chapter 5, pp. 78-85.
  • “Computational Analysis of Convection Heat Transfer” G. Comini and B. Sundén (Eds.), Wessex Institute of Technology Press, 2000. Chapter Title: “Thermal Analysis of Wing Anti-Icing Devices”, Chapter 10, pp. 409-432.
  • “Barriers and Challenges in CFD” M.D. Salas (Ed.), Kluwer Academic Publishers, 1998. Chapter Title: “Anisotropic Mesh Adaptation: A Step Towards a Mesh-Independent and User-Independent CFD”, pp. 99-117.
  • “Solution Techniques for Large-Scale CFD Problems” W.G. Habashi (Ed.), John Wiley & Sons, 1995. Chapter Title: “Parallel Finite Element Computation of 3D Compressible Turbomachinery Flows on Workstation Clusters”, pp. 41-56.
  • “Incompressible Computational Fluid Dynamics, Trends and Advances” M.D. Gunzburger and R.A. Nicolaides (Eds.), Cambridge University Press, 1993. Chapter Title: “A Fully-Coupled Finite Element Algorithm, Using Direct and Iterative Solvers for the Incompressible Navier-Stokes Equations”, pp. 151-182.
  • “Computational Methods in Viscous Aerodynamics” T.K.S. Murthy and C.A. Brebbia (Eds.), Elsevier, 1990. Chapter Title: “Finite Element Vorticity-Based Methods for the Solution of the Compressible Navier-Stokes Equations”, pp. 197-230.
  • “Numerical Methods in Fluid Dynamics” M. Yasuhara, H. Daiguji and K. Oshima (Eds.), Japan Society of CFD, 1989. Chapter Title: “A Newton-Galerkin Algorithm for Computational Fluid Dynamics”, pp. 316-323.
  • “Advances in Fluid Dynamics” W.F. Ballhaus and M.Y. Hussaini (Eds.), Springer-Verlag, 1989. Chapter Title: “Non-Unique Solutions of the Euler Equations”, pp. 1-10.
  • “The Handbook of Finite Elements” H. Kardenstuncer and D.H. Norrie (Eds.), McGraw-Hill, 1987. Chapter 3.2.7: “Analysis and Design of Subsonic and Supersonic Turbomachines”, pp. 398-402. Chapter 3.4.1: “Compressible Inviscid Flows”, pp. 448-452. Chapter 3.4.7: “Transonic Flow and Shock Waves: Mixed-Type Algorithms”, pp. 466-471.
  • “Advances in Computational Transonics” W.G. Habashi (Ed.), Pineridge Press, 1985. Chapter Title: “Finite Element Solution of Transonic External and Internal Flows”, pp. 671-701.

co-authored books

  • “The Finite Element Method and its Applications to Turbomachinery” W.G. Habashi and T. Arts (Eds.), 2 volumes, VKI Press, Belgium, 1988 with A. Ecer and H.U. Akay (Purdue) and J.N. Reddy (Texas A&M).

edited books

  • “Computational Fluid Dynamics Techniques” W.G. Habashi and M.M. Hafez (Eds.) 10 sections, 37 chapters, by invitation. 872 pages, Gordon & Breach Publishers, 1995.
  • “Solution Techniques for Large-Scale CFD Problems” W.G. Habashi (Ed.) 5 sections, 22 chapters, by invitation. 450 pages, John Wiley & Sons, 1995.
  • “Computational Methods for Viscous Flows” W.G. Habashi (Ed.) 20 chapters, 35 authors, by invitation. 660 pages, Pineridge Press, U.K., 1985.
  • “Advances in Computational Transonics” W.G. Habashi (Ed.) 28 chapters, 50 authors, by invitation. 934 pages, Pineridge Press, U.K., 1985.

EDITED CONFERENCE PROCEEDINGS

  • “Solution Techniques for Large-Scale CFD Problems” W.G. Habashi (Ed.) 403 pages, CERCA, Montreal, 1995.
  • “Advances in Finite Element Analysis in Fluid Dynamics”, IV M.N. Dhaubhadel, W.G. Habashi and M.S. Engelman (Eds.) 80 pages, ASME-FED-Vol. 200, ASME Press, 1994.
  • “Advances in Finite Element Analysis in Fluid Dynamics”, III M.N. Dhaubhadel, M.S. Engelman and W.G. Habashi (Eds.) 125 pages, ASME-FED-Vol. 171, ASME Press, 1993.
  • “Numerical Methods for Thermal Problems” R.W. Lewis, W.G. Habashi and K. Morgan (Eds.) 2 Vols, 1914 pages, Pineridge Press, U.K., 1987.
  • “Numerical Methods in Laminar and Turbulent Flow” C. Taylor, W.G. Habashi and M.M. Hafez (Eds.) 2 Vols, 2137 pages, Pineridge Press, U.K., 1987.
  • “Numerical Methods in Laminar and Turbulent Flow” C. Taylor, M.D. Olson, W.G. Habashi and P.M. Gresho (Eds.) 2 Vols, 1815 pages, Pineridge Press, U.K., 1985.

SEMINARS IN ACADEMIA AND INDUSTRY (1994-on)

  • University of Notre Dame, Indiana, USA, “Putting Computers on Ice: A CFD Approach to the In-Flight Icing Problem”, September 1994.
  • Centre de Recherche Informatique de Montréal, “The Role and Impact of Simulation in Modern History: Illustrations through Computational Fluid Dynamics”, Silicon Graphics “Visualize the Future”, October 1994.
  • Clarkson University, Potsdam, USA, “A Finite Element Methodology for Large-scale Compressible Flow Calculations in Turbomachines, February 13, 1995.
  • Université Laval, Québec, Application thermiques de la CFD dans l'aérospatiale”, Journée des Éléments Finis, May 1995.
  • Pratt & Whitney Canada, Longueuil, “CFD at P&WC in 1995”, October 1995.
  • Fluid Dynamics International, Inc., Chicago, USA, “On 3D Mesh Adaptation”, March 1996.
  • Vrije Universiteit Brussel, Belgium, “Putting Computers on Ice”, March 29, 1996.
  • University of Missouri, Rolla, USA, “Putting Computers on Ice: A CFD Approach to the In-flight Icing Problem”, April 1996.
  • University of Southern Illinois, Carbondale, USA, “Putting Computers on Ice: A CFD Approach to the In-flight Icing Problem”, April 1996.
  • ENSIC, Université Nancy I, France, “Mettre l'ordinateur sur la glace: la CFD à l'assault du problème du givrage en vol, “, May 24, 1996.
  • Bombardier-de Havilland, Downsview, “Progress of the In-Flight Icing and Optimal Numerical Solution of Engineering Problems Consortia at the CFD Lab”, July 1996.
  • PSA-Peugeot-Citroën, La Garenne-Colombes, France, “Optimization de Maillage, Le jour de l'indépendance pour la CFD”, September 13, 1996.
  • Computational Dynamics Inc., London, U.K., “Mesh Optimization, Independence Day for CFD”, September 14, 1996.
  • The University of Tennessee Space Institute, Tullahoma, USA, “Putting Computers on Ice: A CFD Approach to the In-Flight Icing Problem”, October 9, 1996.
  • The University of Tennessee Space Institute, Tullahoma, USA, “Mesh Optimization: Towards Mesh-, Solver- and User-independent Certifiable CFD, October 9, 1996.
  • The University of Maryland, Silver Springs, USA, “Putting Computers on Ice: An Integrated CFD Approach to the In-Flight Icing Problem”, November 15, 1996.
  • The University of Maryland, Silver Springs, USA, “Mesh Optimization: Independence Day for CFD, Towards mesh-, solver- and user-independent Certifiable CFD”, November 15, 1996.
  • Université de Sherbrooke, "Mettre l'ordinateur sur glace, le problème du givrage en vol", December 16, 1996.
  • The University of Tennessee Space Institute, Tullahoma, USA, “Towards Multi-disciplinary Applications of CFD, February 13, 1997.
  • The University of Toronto Institute of Aerospace Studies, Downsview, “Anisotropic Mesh Optimization Methodology, Toward Mesh-, Solver- and User-independent CFD”, March 26, 1997.
  • Ontario Hydro Research Laboratories, Toronto, “Anisotropic Mesh Optimization Methodology, Toward mesh-, solver- and user-independent numerically certifiable optimal solution of engineering problems, March 26, 1997.
  • Daimler-Benz Aerospace AG, München, Germany, (with Captain Gary Wagner, Adjunct Professor, CFD Lab) “Putting Computers on Ice: A Modern Approach to the Simulation of In-Flight Icing”, July 29, 1997.
  • Daimler-Benz Aerospace AG, München, Germany, “Mesh Optimization Methodology: Toward Mesh-, User- and Solver-Independent, Certifiable, CFD”, July 29, 1997.
  • British Aerospace Sowerby Research Centre, Bristol, U.K., “Optimal Numerical Solution of Engineering Problems”, July 31, 199. o o British Aerospace Airbus, Bristol, U.K., (with Captain Gary Wagner, Adjunct Professor, CFD Lab) “Putting Computers on Ice: A Modern Computational Approach to In-Flight Icing Simulation”, August 1, 1997.
  • Fluent Inc., Lebanon, USA, “Adaptive Meshing”, August 1997.
  • Pratt & Whitney Canada, Mississauga, “Mesh optimization: Towards mesh-, solver- and user-independent Certifiable CFD”, October 1997.
  • Bombardier-Canadair Aerospace, Montreal, “Anisotropic Mesh Adaptation: Toward Certifiably Accurate CFD”, November 1997.
  • The Boeing Commercial Airplane Company, Renton, USA, “FENSAP-ICE: A 3D Navier-Stokes Code for In-flight Icing with Ice Accretion Capabilities”, December 15, 1997.
  • The Boeing Company Defense & Space Group, Seattle, USA, “MOM: Mesh Optimization Methodology”, December 16, 1997.
  • Indiana University-Purdue University, Indianapolis, USA, “CFD in Modern Simulation”, April 22, 1998.
  • Aerospatiale, Toulouse, France, “Sur les applications multi-disciplinaires de la CFD: Aéro-Numérique, Aéro-Elasticité, Aéro-Acoustique and Aéro-Givrage”, August 19, 1998.
  • Aerospatiale, Toulouse, France, “FENSAP-ICE, une approche CFD intégrée pour le problème du givrage en vol”, August 20, 1998.
  • Aerospatiale, Toulouse, France, “MOM: Méthodologie d’Optimisation des Maillages: vers des calculs scientifiques à précision contrôlable ”, August 21, 1998.
  • Comair, Cincinnati, USA, (with Captain Gary Wagner, Adjunct Professor, CFD Lab) “CFD Analysis of In-Flight Icing and its Application to the Brasilia Embraer-120 Monroe, Michigan 1997 Crash”, September 2, 1998.
  • NASA Lewis Research Center, Cleveland, USA, “FENSAP-ICE: A Modern, Integrated and Comprehensive, Modular Simulation Code for the In-Flight Icing Problem”, November 10, 1998.
  • NORDAM, Tulsa, USA, “FENSAP-ICE: A Modern, Integrated and Comprehensive, Modular Simulation Code for the In-Flight Icing Problem”, June 23, 1999.
  • Boeing, Seattle, USA, “Mesh Optimization for Aerospace Applications”, October 25, 1999.
  • Embraer, Sao Paolo, Brazil, “CFD Simulation of In-Flight Icing”, November 8-11, 1999.
  • Dassault Aviation, Paris, "Conjugate Heat Transfer Analysis of Wing Piccolo Tubes", March 24, 2000. o o United Technologies, East Hartford, “Toward Credible Multi-disciplinary CFD Applications “,UTC Advanced Studies Program, October 17, 2000.
  • CAE Electronics, Montreal, “Toward an Advanced In-flight Icing Simulator”, January 31, 2001.
  • IATA - Flight Simulation Working Group, Montreal, “The Case for a CFD-enriched Advanced In-Flight Icing Simulator”, April 3, 200.
  • Université de Sherbrooke, “Givrage en vol: une approche système”, 27 avril, 2001.
  • Hamilton Sundstrand (San Diego), Goodrich (San Diego), Ice Management Systems (Temecula), Cessna, Bell Helicopter Textron (Fort Worth), Raytheon (Wichita), Nordam (Tulsa), USA, January 2002.
  • Peugeot, Paris, April 2002.
  • SAGEM, Paris, April 2002.
  • Oxford, Cambridge, London, Cranfield Universities, U.K., July 2002, as part of Quebec Aerospace Academic Mission to Farnborough.
  • Florida International University, Miami, “The Expanding Role of CFD for In-Flight Icing Certification”, November 12, 2002.
  • Nanjing University of Aeronautics and Astronautics, Nanjing, China, “The Use of Advanced CFD for In-Flight Icing Certification”, October 22, 2003.
  • China Aviation Corporation I, Xi’an, Beijing and Shanghai, China, “The Use of Advanced CFD for In-Flight Icing Certification”, October 24, 25 and 26, 2003.
  • Shanghai Xian Dai Architectural Design Group, Shanghai, China, “On Computational Wind Engineering”, October 23, 2003.
  • Massachusetts Institute of Technology, Boston, USA, “In-flight Icing Simulation: a Frontier of CFD”, April 9, 2004.
  • École Polytechnique de Tunis (Tunisie), “Rôle de la CFD dans la simulation du givrage en vol”, 19 avril, 2004.
  • TongJi University, Shanghai, China, Department of Engineering Mechanics and Technology, Computational Wind Engineering: Current Status and Prospects, May 12, 2004.
  • Beijing University of Aeronautics & Astronautics, Beijing, China, Department of Flying Vehicle Design & Applied Mechanics, “Putting Computer on Ice: A CFD Integrated Approach to the In-Flight Icing Problem, May 13, 2004.
  • University of Calgary, Department of Mechanical and Manufacturing Engineering, “Science, Simulation and Supercomputers”, June 7, 2004.
  • Mitsubishi Heavy Industries, Aerospace Company, Nagoya, Japan, “Aero Shape Optimization via Optimal Control”, August 27, 2004.
  • Kawasaki Heavy Industries, Kakamigahara City, Japan, “Automatic Anisotropic Mesh Adaptation: From Qualitative to Quantitative CFD”, August 27, 2004. o o Fuji Heavy Industries, University, Utsonomiya, Japan, “Aero Shape Optimization via Optimal Control”, September 2, 2004.
  • Chuo University, Tokyo, Japan, “Automatic Anisotropic Mesh Adaptation: From Qualitative to Quantitative CFD”, September 3, 2004.
  • Northrop Grumman, El Segundo and Lockheed Martin Skunk Works, Palmdale, USA, “Aero Shape Optimization via Optimal Control”, November 2004.
  • TongJi University, Shanghai, China, Department of Aerospace Engineering, “The Science of In-flight Icing Simulation”, April 14, 2004.
  • Middle East Technical University University, Ankara, Turkey, Department of Aerospace Engineering, “In-flight Icing Simulation: A Pacing Item for CFD”, June 30, 2005.
  • Turkish Aerospace Industries, Ankara, Turkey, “On Multi-disciplinary Applications of CFD”, June 30, 2005.
  • Aselsan Electronics Industries, Ankara, Turkey, “On Certificating Missionized Aircraft”, July 1, 2005.
  • Trebor Systems, Connecticut, “On The Ice Cruystals Threat To Jet Engines In Flight”, September 2007.
  • Concepts NREC, Vermont, “Applications of Icing in Jet Engines”, September 2007. o Chuo University, Tokyo, Japan, “Reduced Order Models and their Application in Aerodynamics and in In-Flight Icing”, December 2008.
  • Kogakuin University, Tokyo, Japan, “Development of Computational Fluid Dynamics”, December 2008.
  • Japan Aerospace Exploration Agency (JAXA), Chofu, Japan, “The Role of Simulation in Aircraft Icing Certification”, December 2008.
  • Honeywell Jet Engines, Phoenix, USA, “A New Paradigm for Ice Crystals Ingestion in Jet Engines”, June 2009.
  • Gyeongsang National University, Korea, “Development of Computational Fluid Dynamics”, May 2010.
  • Seoul National University, Korea, “On the Wide Applications of Computational Fluid Dynamics, with Emphasis on Aeronautical Applications”, May 2010.

INVITED LECTURES AND KEYNOTE ADDRESSES (1993-on)
CFD Society of Canada, Inaugural Address, Montreal, June 1993.

  • o 10th International Conference on Numerical Methods in Laminar and Turbulent Flow, Stanford, USA, July 1993.
  • 5th FIDAP Users Conference, “NewMiracle Methods for Colorful Fluid Dynamics, Fluid Dynamics International Inc., Chicago, USA, May 1993.
  • World User Association in Applied CFD, Fluid Dynamics Days ‘94, “CFD in Turbomachinery”, Basel, Switzerland, May 1994.
  • Workshop on CFD in Turbomachinery Design, “The Impact of Computational Fluid Dynamics in Turbomachinery Design”, Concepts ETI, Wilder, USA, March 1995.
  • 9th International Conference on FEM in Fluids, Venice, Italy, October 1995.
  • World User Association in Applied CFD, Fluid Dynamics Days ‘96, “Progress and Outlook for CFD in Turbomachinery”, Freiburg, Germany, May 1996.
  • Workshop on Barriers and Challenges in Computational Fluid Dynamics, “Anisotropic Mesh Adaptation: A Step towards a Grid-independent and User-independent CFD”, ICASE/ NASA Langley Research Center, Hampton, USA, August 1996.
  • 3rd Canadian Civil and Building Engineering Conference, Montreal, September 1996.
  • Dow Chemicals CFD Annual Meeting, Midland, USA, September 1996.
  • ICEM CFD Users’ Conference’97, “Anisotropic Mesh Optimization: Independence Day for CFD, Toward Mesh-, User- and Solver-Independent CFD”, Berkeley, USA, May 1997.
  • 3rd Conference of the CFD Society of Canada, “Anisotropic Mesh Optimization: Toward Mesh-, User- and Solver-Independent CFD”, Victoria, June 1997.
  • Workshop on Emerging Horizons of Turbomachinery Technology, “Directions of CFD”, Concepts ETI, Wilder, USA, May 11, 1998.
  • 13th Canadian Symposium on Fluid Dynamics (CSFD-98) held at the 19th Annual Meeting of the Canadian Applied and Industrial Mathematics Society, “Putting Computer on Ice: A CFD Integrated Approach to the In-Flight Icing Problem”, Vancouver, May 28, 1998.
  • AIAA 37th Aerospace Sciences Meeting, Silicon Graphics Exposition, “Come to MOM: Mesh Optimization Methodology”, Reno, Nevada, January 12, 1999.
  • ICEM CFD Users’ Conference’99, "Anisotropic Mesh Adaptation for 3-D Flows on Unstructured Grids", Berkeley, USA, May 6, 1999.
  • Silicon Graphics Aerospace CAE Solutions Forum, "Multi-Disciplinary Applications of CFD in the Aerospace Industry", Seattle, USA, October 26, 1999.
  • Société Mathématique du Canada, Carrefour Emploi, “La collaboration mathématiciens-ingénieurs: y a-t-il une place pour les mathématiciens dans l'industrie?", Montreal, December 14, 1999.
  • Partnership Group for Science and Engineering (PAGSE) of the Royal Society, Annual Meeting, "University-Industry-Government Partnership in Aerospace: A Success?", National Press Club, October 24, 2000.
  • The XI Congress on Numerical Methods and its Applications, XI ENIEF, “Credible Multi-disciplinary Applications of CFD”, S.C. de Bariloche, Argentina, November 20-24, 2000. o o International Congress on Simulation, An Essential Tool for Risk Management in Industrial Product Development, Société des Ingénieurs de l’Automobile, Forum Armand Peugeot, Poissy, France, September 17-18, 2003.
  • Science, Simulation and Supercomputers, Sigma Xi Society, Montreal, November 27, 2003.
  • Colloque Franco-Tunisien sur les Méthodes Numériques Appliquées aux Écoulements et aux Transferts, 23-24 avril 2004, Monastir, Tunisie.
  • CASI Annual General Meeting, Ottawa, May 2004.
  • 4th International Conference on Engineering Computational Technology, Lisbon, Portugal, September 2004.
  • Pacing CFD, Stanford University, November 2004.
  • 17th HP Symposium on Technology Trends in Computational Engineering, Los Angeles April 25, 2006.
  • CFD Society of Canada, CFD Conference, Kingston, Canada July 2006.
  • 5th International Conference on Engineering Computational Technology, Las Palmas de Gran Canaria, September 2006.
  • NASA-ONERA CFD Methods for SLD Simulation Workshop, Phoenix, AZ, October 19-20, 2006.
  • 7th International Conference on Engineering Computational Technology, Technical University of Athens, September 2008. o o 22nd Meeting of the Japanese Society of Fluid Mechanics, Tokyo, Japan, December 2008.
  • 2nd Grand Review in the Numerical Simulation of Fluid Flow, Institution of Mechanical Engineers, London, April 30, 2009.
  • 2009 SHARCNET Day, University of Waterloo, May 19, 2009.
  • ParCFD 2009, NASA Ames, Moffett Field, California, May 21, 2009.
  • 11th Numerical Grid Conference, Montreal, May 25, 2009.
  • Pioneers Forum, Pratt & Whitney Canada, Longueuil, Canada, October 2009.
  • 7th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics (HEFAT 2010), Antalya, Turkey, 19-21 July 2010.
  • Seventh International Conference on Engineering Computational Technology Valencia, Spain, 14-17 September 2010.
  • Korean Computational Fluids Engineering Society Meeting, Seoul, May 13-14, 2010.
  • Conférence CRM-GIREF, “Adaptation de maillages et estimations d’erreurs”, Québec, Canada, 25-27 mai 2010.

INTERNAL INDUSTRIAL REPORTS - a sample (90 technical open literature publications, Journals and Conferences, co-authored with industrial partners)

AT PRATT & WHITNEY CANADA

  • “NS3D: Navier-Stokes in 3 Dimensions; A Users' Guide”, P&WC Engineering Memos and Engineering Reports, November 1990-2001.
  • “Cascade Analysis by Finite Elements for Maxistruts”, P&WC Engineering Report No. 2298, February 1991, (31 pages).
  • “Turbine Transonic Design in Beta Mode, for P0933”, P&WC Engineering Report No. 2252, November 1989, (25 pages).
  • “CRAY Supercomputer Benchmarking of P&WC/Concordia 3-D Finite Element Navier- Stokes Codes”, P&WC Engineering Report No. 2059, June 1988, (11 pages).
  • “P0927: CAFE (Cascade Analysis by Finite Elements), Transonic Finite Element Blade-to- Blade Analysis”, P&WC Engineering Report No. 1516, February 1988, (74 pages).
  • “P1026: A Finite Element Navier-Stokes Code for Viscous, Compressible, Swirling Flows in Axisymmetric Ducts”, P&WC Engineering Report No. 1766, December 1987, (39 pages).
  • “FEM Through-Flow Analysis of Choked Turbines”, P&WC Engineering Report No. 1760, October 1987, (16 pages).
  • “P1034: Subsonic and Transonic Analysis and Design FEM Code for the Through-Flow in Axial, Mixed and Centrifugal Compressors and Turbines”, P&WC Engineering Report No. 1391, January 1985, (104 pages).
  • “New Finite Element Transonic Through-Flow Analysis and Design”, P&WC Report 3410-82-02680, March 1982, (4 pages).
  • “Through-Flow Analysis and Design of Axial and Centrifugal Turbomachines”, P&WC Engineering Report No. 1139, April 1981, (39 pages).
  • “Stagnation Streamline Location in Program P1073”, P&WC Report, May 1980, (5 pages).
  • “Application of Finite Element Programs P1073 to Turbine Cascade Aerodynamics Analysis”, P&WC Engineering Report No. 1044, December 1979, (80 pages).
  • “Shockless Transonic Finite Element Blade-to-Blade Analysis Package”, P&WC Engineering Report No. 1011, August 1979, (120 pages).
  • “Numerical Methods of Turbomachinery”, P&WC Engineering Report No. 986, April 1979, (42 pages).
  • “Finite Element Programs P1072/P1073”, P&WC Report, October 1978, (27 pages). o o “Analysis of Supercritical Cascades by Finite Element Programs P1072/P1073”, P&WC Report, January 1978, (19 pages).

AT BOMBARDIER-CANADAIR AEROSPACE DIVISION

  • “A Study of the Supercomputing Requirements for the Engineering Technical and Development Department within the Canadair Aerospace Group”, December 1989, (44 pages).
  • “Workplan for a New Computing Architecture for Engineering-Technical and for the Off-Loading of the Amdahl”, February 1990, (35 pages).

COURSES TAUGHT
AT CONCORDIA

Undergraduate
ENGR 251: Thermodynamics I

MECH 351: Thermodynamics II

MECH 462: Turbomachinery & Propulsion

MECH 464: Aerodynamics

Graduate
MECH 612: Aerodynamics

MECH 617: Turbomachinery & Propulsion

ENGR 625: Computational Fluid Dynamics by the Finite Difference Method

ENGR 626: Computational Fluid Dynamics by the Finite Element Method

AT McGILL

Undergraduate

MECH 539: Computational Aerodynamics

MECH 434:Turbomachinery

Graduate

MECH 535 : Turbomachinery and Propulsion

MECH 661: Finite Element Methods in CFD

SHORT COURSES TAUGHT AT OTHER UNIVERSITIES

  • Effective Use of CFD for In-flight Icing Certification 5-day course, Gyeongsang National University, Jeju, Republic of Korea, October 2010 (with Dr. Alberto Pueyo, Mr. Martin Aubé, Mr. John Dow)
  • Effective Use of CFD for In-flight Icing Certification 5-day course, University of Nevada Las Vegas, April 2009 (with Dr. Alberto Pueyo, Mr. Martin Aubé, Mr. John Dow)
  • Effective Use of CFD for In-flight Icing Certification 1-day course, Universidad de Sevilla, Sevilla, September 2007 (with Dr. Alberto Pueyo, Mr. Martin Aubé)
  • Effective Use of CFD for In-flight Icing Certification 4-day course, Barcelona Supercomputer Center, Barcelona, November 2006 (with Dr. Alberto Pueyo, Mr. John Dow, Mr. Martin Aubé)
  • FENSAP-ICE: Modern 3-D CFD simulation system for in-flight icing certification 1-day course, European Aviation Safety Agency (EASA), Köln, Germany, June 27, 2005 (with Mr. Pascal Tran)
  • Effective Use of CFD for In-flight Icing Certification 3-day course, McGill University, Montreal, June 2004 (with Dr. Alberto Pueyo, Mr. John Dow, Mr. Pascal Tran, Mr. Martin Aubé)
  • The Expanding Role of CFD for In-flight Icing Certification 3-day course, The University of Cambridge, Cambridge, U.K., October 2003 (with Prof. N. Nikiforakis, Dr. Alberto Pueyo, and Ms. Huguette Bouilloud)
  • The Expanding Role of CFD for In-flight Icing Certification 3-day course, Florida International University, Miami, November 2002 (with Prof. Y. Tao, Dr. Fatih Tezok, and Mr. John Dow)
  • The Expanding Role of CFD for In-flight Icing Certification 3-day course, CIMNE, University of Barcelona, Spain, October 2002 (with Prof. R. Codina, Dr. Fatih Tezok, and Ms. Huguette Bouilloud)
  • CFD Simulation of In-Flight Icing Problems 3-day course, University of Kansas Extension, San Diego, USA, September 1998 (with Wayne Sands and David Kohlman)
  • Anisotropic Mesh Adaptation: A Step Toward Mesh-, User- and Solver-Independent CFD One-day course, NASA Ames Research Center, Moffett Field, USA, February 1998
  • Computational Fluid Dynamics The Von Karman Institute for Fluid Dynamics, Belgium Montreal, August 1996, Co-Director of the course with H. Deconinck (VKI) Brussels, March 1997
  • The Finite Element Method in Computational Fluid Dynamics and Heat Transfer Purdue University [annually], 1984 - 1994. with A. Ecer, H.U. Akay (Purdue), J.N. Reddy (VPI) and D. Gartling (Sandia).
  • The Finite Element Method and its Applications to Turbomachinery The Von Karman Institute for Fluid Dynamics, Belgium, May 1987. Co-Director of the course with T. Arts (VKI) with A. Ecer, H.U. Akay (Purdue) and J.N. Reddy (VPI).
  • Finite Element Methods in Fluid Mechanics and Heat Transfer The University of Texas at Austin, July 1984. with J.T. Oden, L. Hayes (Texas) and A.J. Baker (Tennessee).