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Marcelo Reggio

Professeur titulaire
Département de génie mécanique

Publications

Ces données sont extraites du Répertoire des publications de Polytechnique Montréal. La liste ci-dessous recense la majorité des publications du professeur ou du chercheur, à Polytechnique, depuis 1994. Des publications datant d'avant l'embauche à Polytechnique, ou d'avant 1994, peuvent aussi être incluses dans la liste. Vous pouvez consulter le Répertoire des publications scientifiques et techniques pour plus de détails sur les documents qui y sont inclus.

1 R. Bennacer, M. Reggio, N. Pellerin, X.Y. Ma (2017). Differentiated Heated Lid Driven Cavity Interacting With Tube A Lattice Boltzmann StudyThermal Science, 21(1), p. 89-104. DOI : 10.2298/tsci160429238b 
2 N. Pellerin, S. Leclaire, M. Reggio (2017). Solving incompressible fluid flows on unstructured meshes with the lattice Boltzmann flux solverEngineering Applications of Computational Fluid Mechanics, 11(1), p. 310-327. DOI : 10.1080/19942060.2017.1292410 
3 X. Ma, N. Pellerin, M. Reggio, R. Bennacer (2017). Study on an antagonist differentiated heated lid driven-cavity enclosing a tube: Lattice Boltzmann methodEPJ Applied Physics, 78(3), 10 pages. DOI : 10.1051/epjap/2017170087 
4 H. Hosseinimanesh, C. Devals, B. Nennemann, M. Reggio, F. Guibault (2016). A numerical study of Francis turbine operation at no-load conditionJournal of Fluids Engineering, 139(1), 60 pages. DOI : 10.1115/1.4034422 
5 F. Villalpando, M. Reggio, A. Ilinca (2016). Prediction of ice accretion and anti-icing heating power on wind turbine blades using standard commercial softwareEnergy, 114, p. 1041-1052. DOI : 10.1016/j.energy.2016.08.047 
6 S. Leclaire, N. Pellerin, M. Reggio, J.-Y. Trépanier (2016). A multiphase lattice Boltzmann method for simulating immiscible liquid-liquid interface dynamicsApplied Mathematical Modelling, 40(13-14), p. 6376-6394. DOI : 10.1016/j.apm.2016.01.049 
7 H. Hosseinimanesh, C. Devals, B. Nennemann, M. Reggio, F. Guibault (2016). Unsteady simulation for Francis Turbine during load rejection eventsASME 2016 Fluids Engineering Division Summer Meeting (FEDSM 2016), v. 1A-Symposia, 10 pages. DOI : 10.1115/FEDSM2016-7535 
8 S. Leclaire, N. Pellerin, M. Reggio, J.Y. Trepanier (2015). An approach to control the spurious currents in a multiphase lattice Boltzmann method and to improve the implementation of initial conditionInternational Journal for Numerical Methods in Fluids, 77(12), p. 732-746. DOI : 10.1002/fld.4002 
9 S. Galvan, M. Reggio, F. Guibault (2015). Numerical optimization of the inlet velocity profile ingested by the conical draft tube of a hydraulic turbineJournal of Fluids Engineering, Transactions of the ASME, 137(7). DOI : 10.1115/1.4029837 
10 N. Pellerin, S. Leclaire, M. Reggio (2015). An implementation of the Spalart-Allmaras turbulence model in a multi-domain lattice Boltzmann method for solving turbulent airfoil flowsComputers & Mathematics with Applications, 70(12), p. 3001-3018. DOI : 10.1016/j.camwa.2015.10.006 
11 S. Galvan, M. Reggio, F. Guibault, G. Solorio (2015). Quantitative and qualitative analysis of the flow field development through T99 draft tube caused by optimized inlet velocity profilesInternational Journal of Fluid Machinery and Systems, 8(4), p. 283-293. DOI : 10.5293/IJFMS.2015.8.4.283 
12 A.L. Facci, M. Reggio, S. Ubertini (2015). Three Dimensional Numerical Simulation of Water Entry ProblemInternational Conference of Numerical Analysis and Applied Mathematics (ICNAAM 2014), v. 1648,. DOI : 10.1063/1.4912789 
13 A. Teyssedou, R. Necciari, M. Reggio, F.M. Zadeh, S. Etienne (2014). Moderator Flow Simulation Around Calandria Tubes of Candu-6 Nuclear Reactors. Engineering Applications of Computational Fluid Mechanics, 8(1), p. 178-192.
14 N. Pellerin, S. Leclaire, M. Reggio (2014). Equilibrium distributions for straight, curved, and immersed boundary conditions in the lattice Boltzmann methodComputers and Fluids, 101, p. 126-135. DOI : 10.1016/j.compfluid.2014.06.007 
15 S. Leclaire, N. Pellerin, M. Reggio, J.-Y. Trepanier (2014). Multiphase flow modeling of spinodal decomposition based on the cascaded lattice Boltzmann methodPhysica A: Statistical Mechanics and its Applications, 406, p. 307-319. DOI : 10.1016/j.physa.2014.03.033 
16 S. Leclaire, N. Pellerin, M. Reggio, J.-Y. Trepanier (2014). Unsteady immiscible multiphase flow validation of a multiple-relaxation-time lattice Boltzmann methodJournal of Physics A: Mathematical and Theoretical, 47(10), 105501 (24 pages). DOI : 10.1088/1751-8113/47/10/105501 
17 S. Leclaire, M. El-Hachem, J.-Y. Trepanier, M. Reggio (2014). High Order Spatial Generalization of 2D and 3D Isotropic Discrete Gradient Operators with Fast Evaluation on GPUsJournal of Scientific Computing, 59(3), p. 545-573. DOI : 10.1007/s10915-013-9772-2 
18 S. Galvan, M. Reggio, F. Guibault, L. Castro (2014). Numerical Analysis of the Turbine 99 Draft Tube Flow Field Provoked by Redesigned Inlet Velocity Profiles27th IAHR Symposium on Hydraulic Machinery and Systems (IAHR 2014), v. 22, 11 pages. DOI : 10.1088/1755-1315/22/2/022021 
19 H. Noriega, M. Reggio, P. Vasseur (2013). Natural convection of nanofluids in a square cavity heated from below. Computational Thermal Sciences, 5(4), p. 289-301.
20 S. Leclaire, M. Reggio, J.Y. Trepanier (2013). Progress and Investigation on Lattice Boltzmann Modeling of Multiple Immiscible Fluids or Components With Variable Density and Viscosity Ratios. Journal of Computational Physics, 246, p. 318-342.
21 S. Leclaire, N. Pellerin, M. Reggio, J.-Y. Trepanier (2013). Enhanced equilibrium distribution functions for simulating immiscible multiphase flows with variable density ratios in a class of lattice Boltzmann models. International Journal of Multiphase Flow, 57, p. 159-168.
22 S. Galvan, M. Reggio, F. Guibault (2013). Inlet velocity profile optimization of the turbine 99 draft tubeASME Fluids Engineering Division Summer Meeting (FEDSM 2013), v. 1 A,. DOI : 10.1115/FEDSM2013-16473 
23 F. Villalpando, M. Reggio, A. Ilinca (2012). Numerical Study of Flow Around Iced Wind Turbine Airfoil. Engineering Applications of Computational Fluid Mechanics, 6(1), p. 39-45.
24 J.B. Sosa, G. Urquiza, J.C. Garcia, L. Castro, M. Reggio (2012). Optimization of the impeller and diffuser of hydraulic submersible pump using computational fluid dynamics and artificial neural networks. Logistic management and optimization through hybrid artificial intelligent systems. IGI Global Publishing: Hershey, USA. 
25 E. Sagol, M. Reggio, A. Ilinca (2012). Assessment of Two-Equation Turbulence Models and Validation of the Performance Characteristics of an Experimental Wind Turbine by CFD. ISRN Mechanical Engineering, 428671 (10 pages).
26 S. Leclaire, M. Reggio, J.-Y. Trépanier (2012). Numerical Evaluation of Two Recoloring Operators for an Immiscible Two-Phase Flow Lattice Boltzmann Model. Applied Mathematical Modelling, 36(5), p. 2237-2252.
27 J. Guiet, M. Reggio, P. Vasseur (2012). Natural convection of nanofluids in a square enclosure with protruding heater. Advances in mechanical engineering, 2012, 167296 (11 pages).
28 S. Galvan, M. Reggio, F. Guibault (2012). Optimization of the inlet velocity profile in a conical diffuser. Fluids Engineering Division Summer Meeting.
29 Z. Alloui, P. Vasseur, M. Reggio (2012). Analytical and Numerical Study of Buoyancy-Driven Convection in a Vertical Enclosure Filled With Nanofluids. Heat and Mass Transfer, 48(4), p. 627-639.
30 Z. Alloui, J. Guiet, P. Vasseur, M. Reggio (2012). Natural Convection of Nanofluids in a Shallow Rectangular Enclosure Heated From the Side. Canadian Journal of Chemical Engineering, 90(1), p. 69-78.
31 F. Villalpando, M. Reggio, A. Ilinca (2011). Assessment of turbulence models for flow simulations around a wind turbine airfoil. Advances in computational fluid dynamics and its applications, modelling and simulation in engineering, 2011.
32 K. Toussaint, F. Torriano, J.-F. Morissette, M. Reggio (2011). CFD analysis of ventilation flow for a scale model hydro-generator. ASME 2011 Power Conference.
33 E. Sagol, M. Reggio, A. Ilinca (2011). 3D CFD assessment of the performance characteristics of the NREL phase VI experimental wind turbine. 19th Annual Conference of the CFD Society of Canada.
34 S. Leclaire, M. Reggio, J.-Y. Trépanier (2011). Lattice Boltzmann immiscible three-phase model. 19th Annual Conference of the CFD Society of Canada.
35 S. Leclaire, M. Reggio, J.-Y. Trépanier (2011). Isotropic color gradient for simulating very high-density ratios with a two-phase flow lattice Boltzmann model. Computers and Fluids, 48(1), p. 98-112.
36 J. Guiet, M. Reggio, P. Vasseur (2011). Natural convection of nanofluids in heated enclosures using the lattice Boltzmann method. Computational Thermal Sciences, 3(4), p. 301-316.
37 J. Guiet, M. Reggio, A. Teyssedou (2011). Implementation and application of the lattice Boltzmann method using Matlab. Engineering Applications of Computational Fluid Mechanics, 5(1).
38 S. Galvan, M. Reggio, F. Guibault, H. Gutierrez (2011). Analisis del flujo en el modelo del aspirador de la turbina 99 : resultado de la optimizacion del perfil de velocidades en la entrada. 12. Conreso y Exposicion Lationamericana de Trubomaquinaria.
39 L. Castro, G. Urquiza, A. Adamkowski, M. Reggio (2011). Experimental and numerical simulations predictions comparison of power and efficiency in hydraulic turbine. Advances in computational fluid dynamics and its applications, modelling and simulation in engineering, 2011, p. 8.
40 Z. Alloui, P. Vasseur, M. Reggio (2011). Natural convection of nanofluids in a shallow cavity heated from below. International Journal of Thermal Sciences, 50(3), p. 385-393.
41 R. Necciari, A. Teyssedou, M. Reggio (2010). Numerical simulationof cross-flow in tube bundles to model flow circulation of the moderator in CANDU-6. 31th CNS Annual Conference.
42 S. Leclaire, M. Reggio, J.-Y. Trépanier (2010). Integration of a recoloring algorithm into a Rothman-Keller lattice Boltzmann model. 18th Annual Conference of the CFD Society of Canada.
43 J. Guiet, M. Reggio, P. Vasseur (2010). Applicationof the lattice Boltzmann method to calculate the natural convectionof nanofluids in a shallow cavity. 18th Annual Conference of the CFD Society of Canada.
44 S. Galvan, M. Reggio, F. Guibault (2010). Inlet velocity profile optimization of hte turbine 99 draft tube. .
45 A. Bahloul, B. Roberge, N. Goyer, M. Chavez, M. Reggio (2010). La prévention des intoxications dans les silos à fourrage. (Rapport R-672). .
46 F. Villalpando, M. Reggio, A. Ilinca (2009). Numerical simulation over clean and iced wind turbine blades. 17th Annual Conference of the CFD Society of Canada.
47 F. Villalpando, M. Reggio, A. Ilinca (2009). Turbulent flow simulation over ice-accreted wind turbine blades. CanWEA 2009 : infinite possibilities. The 25th annual CanWEA conference and exhibition.
48 M. Reggio, S. Ubertini, S. Succi, G. Bella (2009). Applicationof the residual distribution methodology to the lattice. 17th Annual Conference of the CFD Society of Canada.
49 J. Guiet, M. Reggio, A. Teyssedou (2009). Applicationof the Lattice - Boltzmann method to the calculation of the aerodynamic parameters on clean and ice-accreted airfoils. 17th Annual Conference of the CFD Society of Canada.
50 A. Martin, M. Reggio, J.Y. Trépanier (2008). Numerical Solution of Axisymmetric Multi-Species Compressible Gas Flow: Towards Improved Circuit Breaker Simulation. International Journal of Computational Fluid Dynamics, 22(4), p. 259-271.
51 E. Petro, M. Reggio (2007). Storyboard and fire simulation on an apartment building. Advanced Workshop on Fire and Computer Modeling.
52 A. Martin, J.Y. Trépanier, M. Reggio, X.Y. Guo (2007). Transient Ablation Regime in Circuit Breakers. Plasma Science & Technology, 9(6), p. 653-656.
53 J. Abanto, M. Reggio, D. Barrero, E. Petro (2007). Prediction of Fire and Smoke Propagation in an Underwater Tunnel. Tunnelling and Underground Space Technology, 22(1), p. 90-95.
54 E. Petro, M. Reggio, J. Abanto (2006). Airflow prediction and fire and smoke propagation in large enclosed structures. International Technical Congress on Computational Simulation Models in fire Engineering and Research.
55 A. Martin, J.-Y. Trépanier, M. Reggio, X. Guo (2006). Transient ablation regime in circuit-breakers. 16th International Conference on Gas Discharges.
56 J. Abanto, M. Reggio, S. Painchaud-Ouellet (2006). On the Design of the RTO Unit Using CFD. Applied Thermal Engineering, 26(17-18), p. 2327-2335.
57 J. Abanto, M. Reggio (2006). Numerical investigation of the flow in a kitchen hood system. Building and Environment, 41(3), p. 288-296.
58 D. Barrero, E. Petro, J. Abanto, M. Reggio (2005). Airflow modelling and fire smoke propagation in the new Ecole Polytechnique building. 9th international IBPSA conference : building simulation 2005.
59 D. Barrero, J. Abanto, J.-P. Hardy, M. Reggio (2005). Serious color fluid dynamics in fire simulation. 43rd AIAA Aerospace Sciences Meeting and Exhibit, p. 10339-10350.
60 J. Abanto, D. Pelletier, A. Garon, J.-Y. Trépanier, M. Reggio (2005). Verification of some commercial CFD codes on atypical CFD problems. 43rd AIAA Aerospace Sciences Meeting and Exhibit, p. 15693-15725.
61 D. Barrero, M. Reggio, B. Ozell (2004). 3-D Flame front tracking for flamelet-based models. 12th Annual Conference of the CFD Society of Canada.
62 D. Barrero, J.-P. Hardy, M. Reggio, B. Ozell (2004). CFD and realistic visualization for the analysis of fire scenariosInternational Conference on Computer Graphics and Interactive Techniques (SIGGRAPH 2004), 101 pages. DOI : 10.1145/1186415.1186535 
63 D. Barrero, J.-P. Hardy, M. Reggio, B. Ozell (2004). Computation and representation of fire and smoke in buildings. 9th International Conference on Air Distribution in Rooms.
64 D. Barrero, J. Abanto, M. Reggio, E. Preto, B. Ozell (2004). Numerical calculation of fire and smoke in tunnels. International Technical Congress on Computational Simulation Models in Fire Engineering and Research.
65 J. Abanto, D. Barrero, M. Reggio, B. Ozell (2004). Airflow modelling in a computer room. Building and Environment, 39(12), p. 1393-1402.
66 J. Abanto, D. Barrero, M. Reggio, J.-P. Hardy, B. Ozell (2004). Application of CFD tools in building engineering and fire simulation. 1st SimBuild 2004.
67 D. Barrero, B. Ozell, M. Reggio (2003). On CFD and graphic animation for fire simulation. 11th Annual Conference of the CFD Society of Canada.
68 J. Abanto, D. Barrero, M. Reggio, B. Ozell (2003). Detailed airblow modelling in a computer room. Fluent Users' Group Meeting.
69 M. Reggio, F. Mckenty, L. Gravel, J. Cortes, G. Morales, D.G.M. Ladron (2002). Computational analysis of the process for manufacturing seamless tubes. Applied thermal engineering, 22(4), p. 459-470.
70 M. Reggio, A. Hess, A. Ilinca (2002). 3-D Multiple-Level Simulation of Free Surface Flows. Journal of Hydraulic Research, 40(4), p. 413-423.
71 P. Maruzewski, A. Martin, M. Reggio, J.-Y. Trépanier (2002). Simulation of Arc-Electrode Interaction Using Sheath Modelling in SF6 Circuit-Breakers. Journal of Physics D: Applied Physics, 35(9), p. 891-899.
72 E. Marineau, M. Reggio, B. Ozell, J.-Y. Trépanier (2002). A visualistic approach in aerodynamics. 14th International Conference on Design Theory and Methodology Integrated Systems Design Theme: Aircraft Systems, v. 4, p. 357-361.
73 S. Thienot, M. Reggio, J. Abanto, R. Camarero (2001). Euler flow solution dependency on control volume shape and orientation. 39th AIAA Aerospace Sciences Meeting and Exhibit.
74 M. Reggio, D. Godin (2001). Generalized Taylor Splines. International Journal of Computer Mathematics, 78(4), p. 551-568.
75 M. Reggio, D. Godin (2000). Taylor's Magic Splines. International Journal of Computer Mathematics, 75(4), p. 465-480.
76 D. Godin, J.-Y. Trépanier, M. Reggio, X.D. Zhang, R. Camarero (2000). Modelling and Simulation of Nozzle Ablation in High-Voltage Circuit-Breakers. Journal of Physics D: Applied Physics, 33(20), p. 2583-2590.
77 A. Martin, M. Reggio, J.-Y. Trépanier (2000). Neptune: un logiciel pour les écoulements de rivière. 8th Annual Conference of the CFD Society of Canada, 6 pages.
78 S. Rida, F. McKenty, F.L. Meng, M. Reggio (1997). Staggered control volume scheme for unstructured triangular grids. International journal for numerical methods in fluids, 25(6), p. 697-717.
79 X.D. Zhang, J.-Y. Trépanier, M. Reggio, A. Benmededour, R. Camarero (1996). Grid influence on upwind schemes for the Euler and Navier-Stokes equations. AIAA journal, 34(4), p. 717-727.
80 J.-Y. Trépanier, M. Paraschivoiu, M. Reggio, R. Camarero (1996). A conservative shock fitting method on unstructured grids. Journal of Computational Physics, 126(2), p. 421-433.
81 X.D. Zhang, J.-Y. Trépanier, M. Reggio, A. Benmeddour, R. Camarero (1995). Grid influence on the solution of Euler/Navier-Stokes equations using upwind schemes. 33rd AIAA Aerospace Sciences Meeting & Exhibit, p. 16.
82 É. McNeil, C. Marche, M. Reggio, T. Quach, R. Boyer, F. Aubin (1995). Application de la modelisation bi-dimensionnelle de la propagation de l'onde de crue de rupture d'un barrage. Canadian Dam Safety Association Conference: Proceedings, p. 139-153.
83 A. Ilinca, R. Camarero, J.-Y. Trépanier, M. Reggio, J. Godin (1995). A new adaptive technique using moving grids. 33rd AIAA Aerospace Sciences Meeting & Exhibit, p. 12.
84 A. Ilinca, R. Camarero, J.-Y. Trépanier, M. Reggio (1995). Error estimator and adaptive moving grids for finite volumes schemes. AIAA Journal, 33(11), p. 2058-2065.
85 X.D. Zhang, J.-Y. Trépanier, M. Reggio, R. Camarero (1994). A new local time stepping approach for the unsteady Euler equations. 32nd AIAA Aerospace Sciences Meeting & Exhibit, p. 12.
86 X.D. Zhang, J.-Y. Trépanier, M. Reggio, R. Camarero (1994). Time-accurate local time stepping method based on flux updating. AIAA Journal, 32(9), p. 1926-1929.
87 M. Paraschivoiu, J.-Y. Trépanier, M. Reggio, R. Camarero (1994). A conservative dynamic discontinuity tracking algorithm for the Euler equations. 32nd AIAA Aerospace Sciences Meeting & Exhibit, p. 12.
88 D. Elkaim, F. Mckenty, M. Reggio, R. Camarero (1994). Control-volume finite-element solution of confined turbulent swirling flows. International journal for numerical methods in fluids, 19(2), p. 135-152.

 

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