Add to ORKGA direct numerical simulation (DNS) of a wall jet is performed at Re=7500. To the authors’ knowledge, this is the highest Reynolds number DNS study of a wall jet. The heat transfer process is studied with an iso-thermal boundary condition at the wall. The molecular Prandtl number is Pr=0.71. Mean flow and heat transfer parameters are contrasted with available measurements and Nusselt number coefficient correlations. The scaling parameters for heat transfer variables are investigated. The mean temperature ⟨T⟩, temperature root mean square Trms, streamwise ⟨u′T′⟩ and wall normal 〈v′T′〉 heat flux profiles show collapse in the streamwise direction, with the inner scaling, the outer scaling and the thermal scaling parameters. The complete budget...
This numerical study presents investigation of impinging jets cooling effect on a hot flat plate. Di...
International audienceThis work is a numerical study of an isothermal and a non-isothermal turbulent...
International audienceThis work is a numerical study of an isothermal and a non-isothermal turbulent...
A direct numerical simulation (DNS) of a wall jet is performed at Re=7500. To the authors’ knowledge...
A direct numerical simulation (DNS) of a plane wall jet is performed at a Reynolds number of . The s...
The authors greatly acknowledge the United Kingdom Turbulence Consortium (UKTC), under EPSRC grant E...
Despite its importance as a canonical two-dimensional flow, the laminar wall jet has not been extens...
The present study deals with the assessment of different turbulence models for heated wall jet flow....
WOS:000388171600014International audienceUnderstanding the heat-release effects on the wall heat tra...
The present thesis deals with the fundamental aspects of turbulent mixing and non-premixed combustio...
AbstractLarge eddy simulations are performed for a wall jet with an external stream. The external st...
Large eddy simulations are performed for a wall jet with an external stream. The external stream is ...
The effect of high amplitude forcing on laminar and turbulent wall jets over a heated flat plate is ...
Abstract: The direct numerical simulation (hereafter, DNS) of turbulent heat transfer in a plane Cou...
An experimental investigation of the two- and three-dimensional turbulent wall jets has been conduct...
This numerical study presents investigation of impinging jets cooling effect on a hot flat plate. Di...
International audienceThis work is a numerical study of an isothermal and a non-isothermal turbulent...
International audienceThis work is a numerical study of an isothermal and a non-isothermal turbulent...
A direct numerical simulation (DNS) of a wall jet is performed at Re=7500. To the authors’ knowledge...
A direct numerical simulation (DNS) of a plane wall jet is performed at a Reynolds number of . The s...
The authors greatly acknowledge the United Kingdom Turbulence Consortium (UKTC), under EPSRC grant E...
Despite its importance as a canonical two-dimensional flow, the laminar wall jet has not been extens...
The present study deals with the assessment of different turbulence models for heated wall jet flow....
WOS:000388171600014International audienceUnderstanding the heat-release effects on the wall heat tra...
The present thesis deals with the fundamental aspects of turbulent mixing and non-premixed combustio...
AbstractLarge eddy simulations are performed for a wall jet with an external stream. The external st...
Large eddy simulations are performed for a wall jet with an external stream. The external stream is ...
The effect of high amplitude forcing on laminar and turbulent wall jets over a heated flat plate is ...
Abstract: The direct numerical simulation (hereafter, DNS) of turbulent heat transfer in a plane Cou...
An experimental investigation of the two- and three-dimensional turbulent wall jets has been conduct...
This numerical study presents investigation of impinging jets cooling effect on a hot flat plate. Di...
International audienceThis work is a numerical study of an isothermal and a non-isothermal turbulent...
International audienceThis work is a numerical study of an isothermal and a non-isothermal turbulent...