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Ilinca, F., & Pelletier, D. (2008). Nodal Velocity Derivatives of Finite Element Solutions: the Find Method for Incompressible Navier-Stokes Equations. International Journal for Numerical Methods in Engineering, 76(4), 455-481. Lien externe
Ilinca, F., & Pelletier, D. (2007). Computation of Accurate Nodal Derivatives of Finite Element Solutions: the Finite Node Displacement Method. International Journal for Numerical Methods in Engineering, 71(10), 1181-1207. Lien externe
Ilinca, F., Pelletier, D., & Borggaard, J. (2007). A Continuous Second-Order Sensitivity Equation Method for Time-Dependent Incompressible Laminar Flows. International Journal for Numerical Methods in Fluids, 55(6), 565-587. Lien externe
Ajersch, F., Ilinca, F., Hetu, J.-F., & Goodwin, F. (2005). Numerical simulation of flow, temperature and composition variations in a galvanizing bath. Canadian Metallurgical Quarterly, 44(3), 369-378. Lien externe
Ajersch, F., Ilinca, F., & Hetu, J. F. (2004). Simulation of Flow in a Continuous Galvanizing Bath: Part I. Thermal Effects of Ingot Addition. Metallurgical and Materials Transactions. B, Process Metallurgy and Materials Processing Science, 35(1), 161-170. Lien externe
Ajersch, F., Ilinca, F., & Hetu, J.-F. (2004). Simulation of flow in a continuous galvanizing bath: Part II. Transient aluminum distribution resulting from ingot addition. Metallurgical and Materials Transactions. B, Process Metallurgy and Materials Processing Science, 35(1), 171-178. Lien externe
Ilinca, F., Hetu, J. F., & Ajersch, F. (2003). Three-Dimensional Numerical Simulation of Turbulent Flow and Heat Transfer in a Continuous Galvanizing Bath. Numerical Heat Transfer. Part A, Applications, 44(5), 463-482. Lien externe
Turgeon, E., Pelletier, D., & Ilinca, F. (2002). Compressible heat transfer computations by an adaptative finite element method. International journal for thermal sciences, 41(8), 721-736. Lien externe
Ilinca, F., Hetu, J. F., & Pelletier, D. (2000). On Stabilized Finite Element Formulations for Incompressible Advective-Diffusive Transport and Fluid Flow Problems. Computer Methods in Applied Mechanics and Engineering, 188(1-3), 235-255. Lien externe
Ignat, L., Pelletier, D., & Ilinca, F. (2000). A Universal Formulation of Two-Equation Models for Adaptive Computation of Turbulent Flows. Computer Methods in Applied Mechanics and Engineering, 189(4), 1119-1140. Lien externe
Ilinca, F., & Pelletier, D. (1999). Positivity Preservation and Adaptive Solution of Two-Equation Models of Turbulence. [Préservation de la positivité et solution adaptative des modèles de turbulence à deux équations]. International Journal of Thermal Sciences, 38(7), 560-571. Lien externe
Ignat, L., Pelletier, D., & Ilinca, F. (1998). Adaptive Computations of Turbulent Forced Convection. Numerical Heat Transfer. Part A, Applications, 34(8), 847-871. Lien externe
Ilinca, F., Pelletier, D., & Ignat, L. (1998). Adaptive Finite Element Solution of Compressible Turbulent Flows. AIAA Journal, 36(12), 2187-2194. Lien externe
Ilinca, F., & Pelletier, D. (1998). Positivity Preservation and Adaptive Solution for the K-Epsilon Model of Turbulence. AIAA Journal, 36(1), 44-50. Lien externe
Ilinca, F., Hetu, J. F., & Pelletier, D. (1998). Unified Finite Element Algorithm for Two-Equation Models of Turbulence. Computers & Fluids, 27(3), 291-310. Lien externe
Ilinca, F., Pelletier, D., & Garon, A. (1997). Adaptive finite element method for a two-equation turbulence model in wall-bounded flows. International Journal for Numerical Methods in Fluids, 24(1), 101-120. Lien externe
Pelletier, D., Ilinca, F., & Turgeon, E. (1997). Adaptive finite element method for forced convection. International Journal for Numerical Methods in Fluids, 25(7), 803-823. Lien externe
Ilinca, F., Pelletier, D., & Arnoux-Guise, F. (1997). An adaptive finite element scheme for turbulent free shear flows. International Journal of Computational Fluid Dynamics, 8(3), 171-188. Lien externe
Pelletier, D., & Ilinca, F. (1995). Adaptive finite element method for mixed convection. Journal of Thermophysics and Heat Transfer, 9(4), 708-714. Lien externe
Ilinca, F., Pelletier, D., & Hay, A. (mars 2007). First- and Second-Order Sensitivity Equation Methods for Value and Shape Parameters [Communication écrite]. 14th International Conference on Finite Elements in Flow Problems, Santa Fe, New Mexico. Publié dans International Journal for Numerical Methods in Fluids, 57(9). Lien externe
Giguère, J.-S., Ilinca, F., Étienne, S., & Pelletier, D. (juin 2008). Numerical simulation and sensitivity analysis of thermally induced flow instabilities [Communication écrite]. 8th World Congress on Computational Mechanics (WCCM) and 5th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS), Venice, Italy. Non disponible
Ilinca, F., & Pelletier, D. (septembre 2006). A continuous shape sensitivity equation method for unsteady laminar flows [Communication écrite]. European Conference on Computational Fluid Dynamics, The Netherlands. Publié dans International Journal of Computational Fluid Dynamics, 21(7-8). Lien externe
Ilinca, F., Hay, A., & Pelletier, D. (juin 2006). Shape Sensitivity Analysis of unsteady Laminar flow Past a Cylinder in Ground Proximity [Communication écrite]. 3rd AIAA Flow Control Conference, San Francisco, California. Lien externe
Ilinca, F., Pelletier, D., & Borggaard, J. (juin 2005). A continuous second order sensitivity equation method for time-dependent incompressible laminar flows [Communication écrite]. 17th AIAA Computational Fluid Dynamics Conference, Toronto, On.. Lien externe
Ajersch, F., Ilinca, F., Hetu, J.-F., & Goodwin, F. E. (mai 2005). Numerical simulation of the rate of dross formation in continuous galvanizing baths [Communication écrite]. AISTech 2005, Iron & Steel Technology Conference, Charlotte, NC, USA. Lien externe
Ouellet, L., Ajersch, F., & Ilinca, F. Numerical simulation and validation of flow in a galvanizing bath using a water model [Communication écrite]. Galvatech '04 : 6th international conference on zinc and zinc alloy coated steel sheet. Lien externe
Ilinca, F., Hetu, J. F., & Ajersch, F. Numerical simulation of Al and Fe distribution during continuous galvanizing operations [Communication écrite]. Galvatech '04 : 6th international conference on zinc and zinc alloy coated steel sheet. Lien externe
Ajersch, F., Ilinca, F., & Hétu, J.-F. (janvier 2002). Numerical analysis of the effect of temperature variation on flow in a continuous galvanizing bath [Communication écrite]. 44th MWSP conference. Non disponible
Ajersch, F., Ilinca, F., Perrault, M., Malo, A., & Hétu, J.-F. Numerical analysis of the effect of operating parameters on flow in a continuous galvanizing bath [Communication écrite]. 5th International Conference on Zinc and Zinc alloy Coated Sheet (GALVATECH 2001). Non disponible
Turgeon, E., Pelletier, D., & Ilinca, F. (janvier 1999). Compressible heat transfer computations by an adaptive finite element method [Communication écrite]. 37th AIAA, Aerospace Sciences Meeting and Exhibit, Reno, NV. Lien externe
Ilinca, F., Pelletier, D., & Ignat, L. (janvier 1998). Adaptive finite element solution of compressible turbulent flows [Communication écrite]. 36th AIAA Aerospace Sciences Meeting and Exhibit, Reno, NV, United states. Lien externe
Ignat, L., Pelletier, D., & Ilinca, F. (janvier 1998). Solution of two-equation models of turbulence using a universal adaptive finite element algorithm [Communication écrite]. AIAA, Aerospace Sciences Meeting & Exhibit, 36th, Reno, Nv. Lien externe
Pelletier, D., & Ilinca, F. (janvier 1994). Adaptive remeshing for the k-epsilon model of turbulence [Communication écrite]. 32nd AIAA, Aerospace Sciences Meeting and Exhibit, Reno, NV. Publié dans AIAA Journal, 35(4). Lien externe
Ilinca, F., Hetu, J.-F., & Pelletier, D. (juin 1997). On stabilized finite element formulations for incompressible flows [Communication écrite]. AIAA Computational Fluid Dynamics Conference, 13th, Snowmass Village, Co. Lien externe
Ilinca, F., & Pelletier, D. (janvier 1997). Positivity preservation and adaptive solution for the k-epsilon model of turbulence [Communication écrite]. 35th Aerospace sciences meeting & exhibit, Reno, Nev, USA. Lien externe
Ilinca, F., Hetu, J. F., & Pelletier, D. (juin 1997). A single formulation and finite element algorithm: A tool for comparing two-equation models of turbulence [Communication écrite]. 13th Computational Fluid Dynamics Conference, Snowmass Village, CO, United states. Lien externe
Ilinca, F., & Pelletier, D. (janvier 1997). A unified approach for adaptive solutions of compressible and incompressible flows [Communication écrite]. 35th Aerospace sciences meeting & exhibit, Reno, Nev, USA. Lien externe
Ignat, L., Pelletier, D., & Ilinca, F. (janvier 1996). An adaptive finite element method for turbulent heat transfer [Communication écrite]. 34th Aerospace Sciences Meeting and Exhibit, Reno, NV, United states. Lien externe
Ilinca, F., Pelletier, D., & Garon, A. (juin 1996). Positivity preserving formulations for adaptive solution of two-equation models of turbulence [Communication écrite]. 27th AIAA Fluid Dynamics Conference, New Orleans, Louisiana (22 pages). Lien externe
Ilinca, F., Pelletier, D., & Garon, A. (juin 1994). An adaptive finite element method for a two-equation turbulence model in wail bounded flows [Communication écrite]. 25th AIAA Fluid Dynamics Conference, Colorado Springs, CO. Lien externe
Pelletier, D., & Ilinca, F. (janvier 1994). An adaptive finite element method for mixed convection heat transfer [Communication écrite]. 32nd AIAA, Aerospace Sciences Meeting and Exhibit, Reno, Nv, USA. Lien externe