2026 Denis Veynante: Mechanical and Aerospace Engineering Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Mechanical and Aerospace Engineering	54	929	851	15	14	150	20113

Research.com Recognitions

2019 - Fellow of the Combustion Institute for brilliant contributions to the modeling of turbulent premixed flames

Overview

Denis Veynante is affiliated with CentraleSupélec in France, focusing primarily on engineering with a strong emphasis on computational mechanics. Their work spans several interrelated subfields, including computational mechanics, mechanical engineering, biomedical engineering, numerical analysis, and environmental engineering.

The scientist's research interests cover a range of topics. These include combustion and flame dynamics, fluid dynamics and turbulent flows, radiative heat transfer studies, heat transfer mechanisms, nanofluid flow and heat transfer, differential equations and numerical methods, and wind and air flow studies.

Denis Veynante has published notably in the following venues:

International Journal of Heat and Mass Transfer (3 publications)
AIAA AVIATION 2021 FORUM (1 publication)
Journal of Fluid Mechanics (1 publication)

Some recent papers authored or coauthored by Veynante include:

Assessment and numerical validation of a normal mode stability analysis for conjugate heat transfer, 2022, International Journal of Heat and Mass Transfer
A Quasi-Monte Carlo method to compute scattering effects in radiative heat transfer: Application to a sooted jet flame, 2021, International Journal of Heat and Mass Transfer
Study of turbulence-radiation interactions in a heated jet using direct numerical simulation coupled to a non-gray Monte-Carlo solver, 2020, International Journal of Heat and Mass Transfer
Conjugate heat transfer analysis of a surface air-cooled oil cooler (SACOC) installed in a turbofan by-pass duct, 2021, AIAA AVIATION 2021 FORUM
Physical study of the non-equilibrium development of a turbulent thermal boundary layer, 2022, Journal of Fluid Mechanics

Frequent collaborators in their work include Ronan Vicquelin, M. Gelain, Alexandre Couilleaux, Marc-Paul Errera, and K. Torres-Monclard.

In 2019, Denis Veynante was recognized as a Fellow of the Combustion Institute for contributions to the modeling of turbulent premixed flames.

Best Publications

Theoretical and numerical combustion

Thierry Poinsot;Denis Veynante

4776
Citations
Turbulent combustion modeling

Denis Veynante;Luc Vervisch

1456
Citations
A thickened flame model for large eddy simulations of turbulent premixed combustion

O. Colin;F. Ducros;D. Veynante;Thierry Poinsot

1414
Citations
A power-law flame wrinkling model for LES of premixed turbulent combustion Part I: non-dynamic formulation and initial tests

Fabrice Charlette;Charles Meneveau;Denis Veynante

790
Citations
Vortex-driven acoustically coupled combustion instabilities

Thierry J. Poinsot;Arnaud C. Trouve;Denis P. Veynante;Sebastien M. Candel

780
Citations
Transformation thermodynamics: cloaking and concentrating heat flux

Sebastien Guenneau;Claude Amra;Denis Veynante

707
Citations
Compressible large eddy simulation of turbulent combustion in complex geometry on unstructured meshes

Laurent Selle;Ghislain Lartigue;Thierry Poinsot;R. Koch

674
Citations
Direct numerical simulation analysis of flame surface density concept for large eddy simulation of turbulent premixed combustion

M. Boger;D. Veynante;H. Boughanem;A. Trouvé

627
Citations
Quenching processes and premixed turbulent combustion diagrams

T. J. Poinsot;D. Veynante;S. Candel

566
Citations
Gradient and counter-gradient scalar transport in turbulent premixed flames

D. Veynante;A. Trouvé;K. N. C. Bray;T. Mantel

440
Citations
Large-eddy simulation of a lifted methane jet flame in a vitiated coflow

P. Domingo;L. Vervisch;D. Veynante

413
Citations
A comparison of flamelet models for premixed turbulent combustion

J.M. Duclos;D. Veynante;T. Poinsot

384
Citations
Towards large eddy simulation of combustion in spark ignition engines

Stéphane Richard;Olivier Colin;Olivier Vermorel;Adlène Benkenida

361
Citations
Towards the understanding of cyclic variability in a spark ignited engine using multi-cycle LES

O. Vermorel;S. Richard;O. Colin;C. Angelberger

346
Citations
A power-law flame wrinkling model for LES of premixed turbulent combustion Part II: dynamic formulation

Fabrice Charlette;Charles Meneveau;Denis Veynante

328
Citations
A filtered tabulated chemistry model for LES of premixed combustion

Benoit Fiorina;Ronan Vicquelin;Ronan Vicquelin;Pierre Auzillon;Nasser Darabiha

308
Citations
Large eddy simulation and experimental study of flashback and blow-off in a lean partially premixed swirled burner

Yannick Sommerer;David Galley;Thierry Poinsot;Sébastien Ducruix

304
Citations
Diagrams of premixed turbulent combustion based on direct simulation

T. Poinsot;D. Veynante;S. Candel

232
Citations
Implementation of a dynamic thickened flame model for large eddy simulations of turbulent premixed combustion

Gaofeng Wang;Matthieu Boileau;Denis Veynante

225
Citations
Training convolutional neural networks to estimate turbulent sub-grid scale reaction rates

Corentin J. Lapeyre;Antony Misdariis;Nicolas Cazard;Denis Veynante

195
Citations
Mixing and stabilization study of a partially premixed swirling flame using laser induced fluorescence

David Galley;Sébastien Ducruix;François Lacas;Denis Veynante

181
Citations

Frequent Co-Authors

Sébastien Candel CentraleSupélec

Nasser Darabiha University of Paris-Saclay

Thierry Poinsot Institute of Fluid Mechanics of Toulouse

Sébastien Ducruix University of Paris-Saclay

Luc Vervisch Complexe de Recherche Interprofessionnel en Aérothermochimie

Dominique Thévenin Otto-von-Guericke University Magdeburg

Charles Meneveau Johns Hopkins University

Pascale Domingo Complexe de Recherche Interprofessionnel en Aérothermochimie

Sébastien Guenneau Imperial College London

Fokion N. Egolfopoulos University of Southern California

External Links

Personal website of Denis Veynante

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