Jean-Philippe Laval
Research interests
- Direct Numerical Simulations of turbulence flows
- Turbulence modelling, Large Eddy Simulation & Subgrid-modelling
- Wall turbulence & flow control
- Turbulence, intermittency, energy cascade and dissipation
- Stratified turbulence
Research projects
- BANG: Breaking Kolmogorov Barrier (2022-2025)
- CoPreFlo: Computational Prediction of Turbulent Flows (2019-2023)
- EXPLOIT: Experimental Study of Dissipative Structures in Turbulence (2016-2020)
- EUHIT: European High-Performance Infrastructures in Turbulence (2013-2017)
- WALLTURB: A European Synergy for the Assesment of Wall Turbulence (2005-2009) (Proceeding Workshop Lille 2009)
- DESIDER: Detached Eddy Simulation for Industrial Aerodynamics, (2003-2006)
- CALINS: Conditions Aux Limites Instationnaires pour les équations de Navier-Stokes, (2006-2008)
LMFL’s Experimental platform for turbulence (PLEX)
DNS of channel flow over a smooth profile: Open access database with statistics and raw 3D data (>10Tb)
More DNS data of Zero Pressure Gradient and Adverse Pressure Gradient Turbulent Boundary Layers are available on request. (see Solak & Laval (2018) or Hussein & Laval (2023))
Research interests
- Direct Numerical Simulations of turbulence flows
- Turbulence modelling, Large Eddy Simulation & Subgrid-modelling
- Wall turbulence & flow control
- Turbulence, intermittency, energy cascade and dissipation
- Stratified turbulence
Research projects
- BANG: Breaking Kolmogorov Barrier (2022-2025)
- CoPreFlo: Computational Prediction of Turbulent Flows (2019-2023)
- EXPLOIT: Experimental Study of Dissipative Structures in Turbulence (2016-2020)
- EUHIT: European High-Performance Infrastructures in Turbulence (2013-2017)
- WALLTURB: A European Synergy for the Assesment of Wall Turbulence (2005-2009) (Proceeding Workshop Lille 2009)
- DESIDER: Detached Eddy Simulation for Industrial Aerodynamics, (2003-2006)
- CALINS: Conditions Aux Limites Instationnaires pour les équations de Navier-Stokes, (2006-2008)
LMFL’s Experimental platform for turbulence (PLEX)
DNS of channel flow over a smooth profile: Open access database with statistics and raw 3D data (>10Tb)
More DNS data of Zero Pressure Gradient and Adverse Pressure Gradient Turbulent Boundary Layers are available on request. (see Solak & Laval (2018) or Hussein & Laval (2023))