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Personal Information

Luc Vervisch

Luc Vervisch
Professor @ INSA de Rouen

Office: INSA/Ma.B.R1.13
email: vervisch@coria.fr
Tel: +33 (0)2 32 95 97 85

Lab Address

CORIA
Avenue de l'Université - BP 12
76801 Saint Etienne du Rouvray
Tel: +33 (0)2 32 95 36 00
Fax: +33 (0)2 32 91 04 85

Research Activities

• Reactive flows - Combustion and flames

Luc Vervisch activities at INSA & CORIA are in numerical simulation of flames and combustion modeling. The main objective is to help in the development of new combustion technologies for energy production and transportation that meet the requirements of modern societies. Fuel efficiency and enviromental issues are the major topics addressed. Luc uses Direct Numerical Simulation (DNS) to understand laminar and turbulent flames. He also contributes to the development of sug-grid scale closures for Large Eddy Simulation (LES) and Reynolds Average Navier Stokes (RANS) computations. Burners, aeronautical and internal engines are the main targets of those studies.

Teaching Activities

• Fundamentals of flow-physics - INSA de Rouen - (16h)
• Basis of computational methods - INSA de Rouen - (44h)
• Gas dynamics - INSA de Rouen - (31h)
• Two-phase flows - INSA de Rouen (18h)
• Turbulent combustion modeling - INSA de Rouen (30h)
• Direct and Large Eddy Simulation - INSA de Rouen (30h)
• Airfoil solutions - INSA de Rouen (30h)

Previous positions

• Laboratoire National d’Hydraulique, EDF-DER Chatou.
• Center for Turbulence Research, Stanford University.

Awards

• 1989: Gold medal - National Music Conservatoire of Rouen district. Organ-class of Professor Louis Thiry
• 2003 - 2008: Junior Professor at Institut Universitaire de France
• 1994 - : Visiting research-fellow at Center for Turbulence Research Stanford

Reviewing activities

• 2003 – present: Co-editor of “Flow Turbulence and Combustion”, Springer.
• 2010 - present: Co-editor of "Comptes-Rendus Mecanique", Elsevier.
• 2003 – present: Member of the Associate Editors board of “Journal of Turbulence”, The Institute of Physics.
• 2003 – 2008: Editorial board of “Combustion and Flame”, Elsevier.

Publications

1. E. Albin, Y. D'Angelo, L. Vervisch (2012) Flow streamline based Navier-Stokes Characteristic Boundary Conditions: modeling for transverse and corner outflows, Computers and Fluids, 51(1): 115-126.
2. G. Ribert, K. Wang, L. Vervisch (2012) A multi-zone self-similar chemistry tabulation with application to auto-ignition including cool-flames effects Fuel, 91(1): 87-92.
3. N. Enjalbert, P. Domingo, L. Vervisch (2012) Mixing time-history effects in Large Eddy Simulation of non-premixed turbulent flames: Flow-Controlled Chemistry Tabulation Combust. Flame 159(1), pp. 336-352.
4. E. Albin, Y. D'Angelo, L. Vervisch (2012) Using staggered grids with characteristic boundary conditions when solving compressible reactive Navier-Stokes equations Int. J. Numer. Meth. Fl. 68(5): 546-563.
5. G. Lodier, L. Vervisch, V. Moureau, P. Domingo (2011) Composition-space premixed flamelet solution with differential diffusion for in situ flamelet-generated manifolds Combust. Flame 158(10): 2009-2016.
6. V. Moureau, P. Domingo, L. Vervisch (2011) From Large-Eddy Simulation to Direct Numerical Simulation of a lean premixed swirl flame: Filtered Laminar Flame-PDF modeling Combust. Flame 158(7): 1340-1357.
7. V. Moureau, P. Domingo, L. Vervisch (2011) Design of a massively parallel CFD code for complex geometries C.R. Mecanique 339(2-3): 141-148.
8. G. Lecocq, S. Richard, J.-B. Michel, L. Vervisch (2011) A new LES model coupling flame surface density and tabulated kinetics approaches to investigate knock and pre-ignition in piston engines Proc. Combust. Inst., 33(2): 3105-3114.
9. G. Lecocq, S. Richard, O. Colin, L. Vervisch (2011) Hybrid presumed pdf and flame surface density approaches for Large-Eddy Simulation of premixed turbulent combustion Part 1: Formalism and simulation of a quasi-steady burner Combust. Flame 158(6): 1201-1214.
10. G. Lecocq, S. Richard, O. Colin, L. Vervisch (2011) Hybrid presumed pdf and flame surface density approaches for Large-Eddy Simulation of premixed turbulent combustion Part 2: Early flame development after sparking Combust. Flame 158(6): 1215-1226.
11. K. Wang, G. Ribert, P. Domingo, L. Vervisch (2010) Self-similar behavior and chemistry tabulation of burnt-gases diluted premixed flamelets including heat-loss Combust. Theory and Modelling 14(4): 541-570.
12. G. Lecocq, S. Richard, O. Colin, L. Vervisch (2010) Gradient and counter-gradient modelling in premixed flames: theoretical study and application to the LES of a Lean premixed turbulent swirl-burner Comb. Sci. Tech. 182(4-6): 465-479.
13. D. Veynante, G. Lodato, P. Domingo, L. Vervisch, E. R. Hawkes (2010) Estimation of three-dimensional flame surface densities from planar images in turbulent premixed combustion Exp. in Fluids 49:267-278.
14. L. Vervisch, P. Domingo, G. Lodato, D. Veynante (2010) Scalar energy fluctuations in Large-Eddy Simulation of turbulent flames: Statistical budgets and mesh quality criterion Combust. Flame 157(4): 778-789.
15. V. Subramanian, P. Domingo, L. Vervisch (2010) Large-Eddy Simulation of forced ignition of an annular bluff-body burner Combust. Flame 157(3): 579-601.
16. P.-D. Nguyen, L. Vervisch, V. Subramanian, P. Domingo (2010) Multi-dimensional flamelet-generated manifolds for partially premixed combustion Combust. Flame 157(1): 43-61.
17. G. Lodato, L. Vervisch, P. Domingo (2009) A compressible wall-adapting similarity mixed model for large-eddy simulation of the impinging round jet Phys. Fluids 21:035102.
18. G. Godel, P. Domingo, L. Vervisch (2009) Tabulation of NOx chemistry for Large-Eddy Simulation of non-premixed turbulent flames Proc. Combust. Inst. 32: 1555-1551.
19. D. Veynante, B. Fiorina, P. Domingo L. Vervisch, (2008) Using self-similar properties of turbulent premixed flames to downsize chemical tables in high-performance numerical simulations Combust. Theory and Modeling 12(6): 1055-1088.
20. J. Galpin, A. Naudin, L. Vervisch, C. Angelberger, O. Colin, P. Domingo (2008) Large-Eddy Simulation of a fuel lean premixed turbulent swirl burner Combust. Flame 155(1): 247 266.
21. G. Lodato, P. Domingo, L. Vervisch (2008) Three-dimensional boundary conditions for Direct and Large-Eddy Simulation of compressible flows J. of Comp. Phys. 227(10): 5105-5143.
22. J. Galpin, C. Angelberger, A. Naudin, L. Vervisch (2008) Large-Eddy Simulation of H2-air auto-ignition using tabulated detailed chemistry J. of Turbulence 9(13).
23. P. Domingo, L. Vervisch, D. Veynante (2008) Large-Eddy Simulation of a lifted methane jet flame in a vitiated coflow Combust. Flame 152(3): 415-432.
24. G. Subramanian, R. Bounaceur, A. Pirez Da Cruz, L. Vervisch (2007) Chemical impact of CO and H2 addition on the auto-ignition delay of homogeneous n-heptane/air mixtures Comb. Sci. Tech. 179(9): 1937-1962.
25. P. Domingo, L. Vervisch (2007) DNS of partially premixed flame propagating in a turbulent rotating flow Proc. Combust. Inst. 31:1657-1664.
26. X. Paubel, A. Cessou, D. Honoré, L. Vevisch, R. Rsiava (2007) A flame stability diagram for piloted non-premixed oxycombustion of low calorific residual gases Proc. Combust. Inst. 31: 3385-3392.
27. C. Péra, J. Réveillon, L. Vervisch, P. Domingo (2006) Modeling subgrid scale mixture fraction variance in LES of evaporating spray Combust. Flame 146(4): 635-648.
28. L. Vervisch, P. Domingo (2006) Two recent developments in numerical simulation of premixed and partially premixed turbulent flame C. R. Mecanique 334 (8/9): 523-530.
29. P. Domingo, L. Vervisch, S. Payet and R. Hauguel (2005) DNS of a Premixed Turbulent V-Flame and LES of a Ducted-Flame using a FSD-PDF subgrid scale closure with FPI tabulated chemistry Combust. Flame 143(4): 566-586.
30. K.N.C. Bray, P. Domingo, L. Vervisch (2005) The role of progress variable in models for partially premixed turbulent combustion Combust. Flame 141(4): 431-437.
31. J. Réveillon, L. Vervisch (2005) Analysis of weakly turbulent diluted-spray flames and combustion regimes J. Fluid Mech. 537: 317-347.
32. P. Domingo, L. Vervisch, J. Réveillon (2005) DNS analysis of partially premixed combustion in spray and gaseous turbulent-flame bases stabilized in hot air. Combust. Flame 140(3): 172-195.
33. B. Fiorina, O. Gicquel, L. Vervisch, S. Carpentier, N. Darabiha (2005) Approximating the chemical structure of partially-premixed and diffusion counter-flow flames using FPI flamelet tabulation Combust. Flame 140(3): 147-160.
34. B. Fiorina, O. Gicquel, L. Vervisch, S. Carpentier, N. Darabiha (2005) Premixed turbulent combustion modeling using tabulated detailed chemistry and PDF Proc. Combust. Inst. 30(1): 867-874.
35. R. Hauguel, L. Vervisch, P. Domingo (2005) DNS of premixed turbulent V-Flame: coupling spectral and finite difference methods C. R. Mecanique 333 (1): 95-102.
36. L. Vervisch, P. Domingo, M. Rullaud, R. Hauguel (2004) Three facets of turbulent combustion modeling: DNS of Premixed V-flame, LES of lifted jet-flame, RANS of non premixed jet-flame J. of Turbulence, 5(4): 1-36.
37. L. Vervisch, B. Labégorre, J. Réveillon (2004) Hydrogen-sulphur oxy-flame analysis and single-step flame tabulated chemistry Fuel 83(4-5): 605-614.
38. J. Boulanger, L. Vervisch, J. Réveillon, S. Ghosal (2003) Effects of heat release in laminar diffusion flames lifted on round jets Combust. Flame, 134(4): 355-368.
39. L. Blin, A. Hadjadj, L. Vervisch, (2003) Large Eddy Simulation of turbulent flows in reversing systems J. of Turbulence, 4(1): 1-19.
40. O. Gicquel, L. Vervisch, G. Joncquet, B. Labegorre, N. Darabiha (2003) Combustion of residual steel gases: Laminar flame analysis and turbulent flamelet modeling, Fuel 82(8): 983 - 991.
41. P. Domingo, L. Vervisch, K.N.C. Bray (2002) Partially premixed flamelets in LES of nonpremixed turbulent combustion Combust. Theory and Modelling 6(4): 529-551.
42. J. Boulanger, L. Vervisch (2002) Diffusion edge-flame: Approximation of the flame tip Damköhler number Combust. Flame, 130(1/2): 1-14.
43. D. Veynante, L. Vervisch (2002) Turbulent Combustion Modeling Prog. Energ. Sci., 285(3): 193-266.
44. V. Favier, L. Vervisch (2001) Edge flames and partially premixed combustion in diffusion flame quenching Combust. Flame. 125 (1/2): 788-803.
45. S. Ghosal, L. Vervisch (2001) Stability diagram for lift-off and blowout of a round jet laminar diffusion flame Combust. Flame. 124(4): 646-655.
46. S. Ghosal, L. Vervisch (2000) Theoretical and numerical study of a symmetrical triple flame using the parabolic flame path approximation J. Fluid Mech. 415: 227-260.
47. J. Reveillon, L. Vervisch (2000) Accounting for spray vaporization in non-premixed turbulent combustion modeling: A Single Droplet Model (SDM) Combust. Flame 121(1/2): 75-90.
48. L. Vervisch, D. Veynante (2000) Interlinks between approaches for modeling turbulent flames Proc. Combust. Inst. 28: 175-183.
49. L. Vervisch (2000) Using numerics to help understand nonpremixed turbulent flames Proc. Combust. 28: 11-24.
50. L. Vervisch, T. Poinsot (1998) Direct numerical simulation of non-premixed turbulent combustion Annu. Rev. Fluid Mech. 30: 655-92.
51. J. Réveillon, L. Vervisch (1998) Subgrid-Scale Turbulent Micromixing: Dynamic Approach AIAA Journal 36 (3): 336-341.
52. V. Favier, L. Vervisch (1998) Investigating the effects of Edge-flames in liftoff in non-premixed turbulent combustion Proc. Combust. Inst. 26: 1239-1245.
53. L. Vervisch, J. Réveillon (1996) Dynamics of iso-concentration surfaces in weak shock turbulent mixing interaction AIAA Journal 34 (12): 2539-2544.
54. L. Vervisch, J. Réveillon, L., Guichard (1996) Recent developments in turbulent combustion modeling Journal Européen des Eléments Finis 5 (2): 161-196.
55. J. Réveillon, L. Vervisch (1996) Response of the dynamic model to heat release induced effects Phys. of Fluids 8(8): 2248-2250.
56. P. Domingo, L. Vervisch (1996) Triple flames and partially premixed combustion in autoignition of nonpremixed turbulent mixtures Proc. Combust. Inst. 26: 233-240.
57. G.R. Ruetsch, L. Vervisch, A. Linan (1995) Effects of heat release on triple flames Phys. Fluids 7(6): 1447-1454.
58. S. Mahalingam, J. H. Chen, L. Vervisch (1995) Finite-rate chemistry and transient effects in direct numerical simulations of turbulent non-premixed flames Combust. Flame 102(3): 285-297.
59. L. Vervisch, E. Bidaux, K.N.C. Bray, W. Kollmann (1995) Surface density function in premixed turbulent combustion modeling, similarities between probability density function and flame surface approaches Phys. Fluids 7(10): 2496-2503.
60. L. Guichard, L. Vervisch, P. Domingo (1995) Two-dimensional weak-shock vortex interaction in a mixing zone AIAA Journal 33(10): 2539-2544.

Invited keynote lectures at international conferences

• L. Vervisch, V. Moureau, P. Domingo (2010) Turbulent combustion modeling: new approaches for highly refined simulations Invited keynote lecture at V European Conference on Computational Fluid Dynamics ECCOMAS CFD 2010 Lisbon, Portugal,14-17 June.

• L. Vervisch (2009) Scalar scaling in LES of turbulent combustion Invited keynote lecture at COCCFEA International Workshop on Combustion Simulation and Modelling, Imperial College London, 17-18 Sept., London, UK.

• L. Vervisch, V. Moureau, P. Domingo, G. Lodato, D. Veynante (2009) Scalar fields subgrid scale energy in Large-Eddy Simulation of turbulent flames: Mesh quality criterion Invited introductory lecture at LESTAC09, Large-Eddy Simulation in Turbulence, Aeroacoustic and Combustion, Aug. 26-28, Marseille, France.

• L. Vervisch, P. Domingo (2008) Large-Eddy Simulation of turbulent combustion, comparing scalar variances with measurements Invited keynote lecture at DNS and LES of Reactive Flows, Oct 22-24, Maastricht, Netherlands.

• L. Vervisch, P. Domingo, V. Subramanian, G. Bonomeau (2008) Chemistry in Large-Eddy Simulation of turbulent flame Invited keynote lecture at The Combustion Institute, 20th Journées d’Etudes of the Belgian Section, May 6-8, Gent, Belgium.

• L. Vervisch, P. Domingo (2008) Large-Eddy Simulation of turbulent flames Invited keynote lecture at LES in Science and Technology, COST P20 Conference, 21-22 April, Poznan, Poland.

• L. Vervisch, G. Lodato, P. Domingo (2007) Reliability of Large-Eddy Simulation of turbulent flames Invited keynote lecture at Quality and Reliabiity of Large-Eddy Simulation, 24-26 October, Leuven, Belgium.

• L. Vervisch, P. Domingo (2005) DNS and LES of turbulent premixed combustion: A FSD-PDF SGS closure Invited plenary at DLES6, Direct and Large Eddy Simulation, ERCOFTAC, Poitiers, Sept. 12-14, France.

• L. Vervisch, P. Domingo (2005) DNS and LES of Turbulent Combustion Invited keynote lecture at Computational Fluid Dynamics in Chemical Reaction Engineering IV, Barga, June 19-24, Italy.

• L. Vervisch (2005) Quality assessment of DNS of reacting flows Invited keynote lecture at the First Workshop on Quality Assessment of Unsteady Methods for Turbulent Combustion Prediction and Validation, Darmstadt - Seeheim, June 16-17, Germany.

• L. Vervisch (2004) Linking DNS, LES, RANS and experiments Invited paper at the 7th Workshop on Turbulent Nonpremixed Flame, Chicago, 22-24 July, USA.

• L. Vervisch (2004) LES of turbulent combustion systems in the light of combustion theory, experiments and DNS Invited keynote lecture at the International Workshop on Unsteady combustion, Transport Phenomena and Chemical Reaction in Technical Systems, Karlsruhe University, 8-9 July, Germany.

• L. Vervisch, P. Domingo, R. Hauguel (2003) Turbulent combustion in the light of direct and large eddy simulation Invited plenary at Turbulent Shear Flow Phenomena-III, Sendai, 25-27 June, Japan.

• L. Vervisch, P. Domingo (2002) Challenges in partially premixed turbulent combustion modeling Invited plenary at 2002 GAMM Conference (Gesellschaft für Angewandte Mathematik un Mechanik) in Augsburg, 25-28 March, Germany.

• L. Vervisch, P. Domingo (2001) Large Eddy Simulation of partially premixed turbulent combustion Invited plenary at Symposium on turbulent mixing and combustion. IUTAM. Kingston, June 3-6, Canada.

• L. Vervisch (2001) Challenges in turbulent combustion modeling Invited plenary at 2001 Joint International Combustion Symposium, Kauai, Sept. 10-12, USA.

• L. Vervisch (2000) Using numerics to help understand nonpremixed turbulent flames Invited Topical Review at Twenty-Eighth Symposium (International) on combustion, Eidinburg, UK.

• L. Vervisch (1999) DNS and LES of non-premixed turbulent combustion Invited paper at AICHE Annual Meeting, Oct. 31 - Nov. 5, Dallas, TX, USA.

• L. Vervisch (1999) Numerical models for non-premixed turbulent combustion Invited plenary at 17th International Colloquium on the Dynamics of Explosions and Reactive Systems, July 25-30, Heidelberg, Germany.

• L. Vervisch (1999) DNS to help understanding of non-premixed turbulent flames Invited plenary at Second AFOSR International Conference on DNS and LES, New Brunswick, N.J., June 7-9, USA.

• L. Vervisch (1995) DNS for analysis of ignition of non premixed mixtures Invited paper at The combustion institute, Sezione Italiana, Naples, July 28, Italy.

Ph.D. Graduates

- (*) indicates Ph.D. with co-advisor

• Stéphane Mélen, « Modélisation de la combustion turbulente en régime supersonique », 1995.
• Julien Réveillon, « Simulation dynamique des grandes structures appliquée aux flammes turbulentes non-prémélangées. », 1996.
• Laurent Blin*, « Simulation des grandes échelles dans un inverseur de poussée », 1999.
• Valérie Favier, « Contribution de la combustion partiellement prémélangée à la stabilisation des flammes turbulentes », 2000.
• Joan Boulanger, « Extrémité des flammes de diffusion. Analyse asymptotique et simulation directe de la combustion partiellement prémélangée », 2002. (Thèse ayant remporté le Prix de la section Française du Combustion Institute, Prix Paul Lafitte.)
• Marina Saveliera*, « Mathematical modeling of triple flame ring behavior », Swiss Federal Institute of Technology Zurich, 2003.
• Cyrille Lesieur « Modélisation de la combustion turbulente non-prémélangée dans un brûleur à jets séparés, application à la stabilisation d’une oxy-flamme », 2003.
• Raphaël Hauguel* « Flamme en V turbulente, Simulation numérique directe et modélisation de la combustion turbulente prémélangée », 2003.
• Matthieu Rullaud, « Analyse et modélisation de la production de CO et Nox dans une chambre de combustion aéronautique », 2004.
• Benoît Fiorina*, « Méthode FPI (Flame Prolongation of IMDL) appliquées aux brûleurs turbulents avec pertes thermiques », 2004.
• Ganessan Subramanian* « Modélisation de l’auto-inflammation : Analyse des effets de la dilution par les gaz brûlés et des interactions avec la turbulence dédiée aux moteurs Diesel à charge homogène », Thèse en co-tutelle avec l’Institut Français du Pétrole, 2005.
• Sandra Payet* « Analyse de l’oxy-combustion en régime dilué par simulation des grandes échelles », 2007.
• Erwin Georges* « Modélisation et simulation de l'auto-allumage de mélanges hydrocarbure/hydrogène dans un écoulement supersonique coaxial confiné d'air chaud, thèse en co-tutelle avec l’ONERA, 2007.
• Jérémy Galpin*, « Modélisation LES de la combustion avec une prise en compte des effets de cinétique détaillée et en perspective d’application moteur », 2007.
• Alexandre Naudin*, « Simulation des grandes échelles de la combustion turbulente avec chimie détaillée tabulée », 2008.
• Guido Lodato*, « Conditions aux limites tridimensionnelles pour la simulation directe et aux grandes échelles des écoulements turbulents. Modélisation de sous-maille pour la turbulence en région de proche paroi », 2008.
• Vallinayagam Pillai Subramanian*, « Numerical simulation of forced ignition using LES coupled with a tabulated detailed chemistry approach », 2010.
• Guillaume Godel*, « Modélisation de sous-maille de la combustion turbulente Développement d’outils pour la prédiction de la pollution dans une chambre aéronautique », 2010.
• Guillaume Lecocq*, « Approches hybrides combinant chimie complexe, description statistique et densité de surface de flamme pour la simulation aux grandes échelles de l’auto-inflammation, l’allumage par bougie et la flamme de prémélange dans les moteurs à allumage commande », 2010.
• Eric Albin*, « Contribution à la modélisation numérique des flammes turbulentes : comparaisons DNS-EEM-Expériences », 2010.
• Cindy Merlin*, « Simulation numérique de la combustion turbulente : Méthode de frontières immergées pour les écoulements compressibles, application à la

combustion en aval d’une cavité », 2011.

• Nicolas Enjalbert*, « Modélisation avancée de la combustion turbulente diphasique en régime de forte dilution par les gaz brûlés », 2011.