Add to ORKGThe present study deals with the assessment of different turbulence models for heated wall jet flow. The velocity field and thermal characteristics for isothermal and uniform heat flux surfaces in the presence of wall jet flow have been predicted using different turbulence models and the results are compared against the experimental data of Wygnanski et al. (1992), Schneider and Goldstein (1994), and AbdulNour et al. (2000). Thirteen differen
The high capacity of todays computers has enabled the extension of turbulence models to strongly ani...
Despite its importance as a canonical two-dimensional flow, the laminar wall jet has not been extens...
For many industrial and environmental flows, the momentum and convective heat transfer rates at the...
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 wall jet is performed at Re=7500. To the authors’ knowledge...
An experimental and numerical investigation of the turbulence field in a two-dimensional wall-jet ha...
An experimental and numerical investigation of the turbulence field in a two-dimensional wall-jet ha...
The Spalart and Allmaras turbulence model has been implemented in a numerical code to study the comp...
The effect of high amplitude forcing on laminar and turbulent wall jets over a heated flat plate is ...
A comparative study is presented of turbulent models simulating the round jet flow impinging normall...
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 numerical study has been carried out for slot jet impinging on flat and concave surfaces. Five tur...
A numerical study has been carried out for slot jet impinging on flat and concave surfaces. Five tur...
An experimental investigation of the two- and three-dimensional turbulent wall jets has been conduct...
The high capacity of todays computers has enabled the extension of turbulence models to strongly ani...
Despite its importance as a canonical two-dimensional flow, the laminar wall jet has not been extens...
For many industrial and environmental flows, the momentum and convective heat transfer rates at the...
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 wall jet is performed at Re=7500. To the authors’ knowledge...
An experimental and numerical investigation of the turbulence field in a two-dimensional wall-jet ha...
An experimental and numerical investigation of the turbulence field in a two-dimensional wall-jet ha...
The Spalart and Allmaras turbulence model has been implemented in a numerical code to study the comp...
The effect of high amplitude forcing on laminar and turbulent wall jets over a heated flat plate is ...
A comparative study is presented of turbulent models simulating the round jet flow impinging normall...
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 numerical study has been carried out for slot jet impinging on flat and concave surfaces. Five tur...
A numerical study has been carried out for slot jet impinging on flat and concave surfaces. Five tur...
An experimental investigation of the two- and three-dimensional turbulent wall jets has been conduct...
The high capacity of todays computers has enabled the extension of turbulence models to strongly ani...
Despite its importance as a canonical two-dimensional flow, the laminar wall jet has not been extens...
For many industrial and environmental flows, the momentum and convective heat transfer rates at the...