Add to ORKGACTInternational audienceModifications of a low-Reynolds number Reynolds-stress model, based on the elliptic-blending approach of Manceau & Hanjalic (2002), are proposed. The main objective is to facilitate the use of Reynolds-stress approach in an industrial context. The new model is validated on canonical cases, such as channels and pipes and on a number of 3D attached and separated flows. Caveats of using Reynolds-Stress model are also emphasized, using a number of examples
The Reynolds-Averaged Navier-Stokes (RANS) equations are still the backbone of numerical flow simula...
The elliptic-blending, lag parameter approach is developed for the conventional k — ω, linear eddy v...
A length-scale correction term is developed for the Speziale–Sarkar–Gatski/Launder–Reece–Rodi–ω Reyn...
ACTInternational audienceModifications of a low-Reynolds number Reynolds-stress model, based on the ...
International audienceThe Elliptic Blending Reynolds Stress Model (EB-RSM), originally proposed by M...
Computational fluid dynamics in conjunction with the Reynolds-Averaged Navier-Stokes approach is now...
National audienceThe implementation and validation of the second-moment Elliptic Blending Reynolds S...
A new explicit algebraic Reynolds stress model is derived based on the elliptic blending strategy to...
A new approach to modeling the effects of a solid wall in one-point second-moment (Reynolds-stress) ...
The performance of different low-Reynolds number turbulence models applied to various flows is descr...
RANS models are still the backbone of contemporary CFD methods because of their lower simulation cos...
Explicit algebraic stress models that are valid for three-dimensional turbulent flows in noninertial...
A numerical method is presented to solve the three-dimensional Navier-Stokes equations in combinatio...
International audienceAdaptive wall functions for the Low-Reynolds Number second moment closure turb...
In this thesis a new Navier-Stokes solver for complex three-dimensional geometries, adopting arbitr...
The Reynolds-Averaged Navier-Stokes (RANS) equations are still the backbone of numerical flow simula...
The elliptic-blending, lag parameter approach is developed for the conventional k — ω, linear eddy v...
A length-scale correction term is developed for the Speziale–Sarkar–Gatski/Launder–Reece–Rodi–ω Reyn...
ACTInternational audienceModifications of a low-Reynolds number Reynolds-stress model, based on the ...
International audienceThe Elliptic Blending Reynolds Stress Model (EB-RSM), originally proposed by M...
Computational fluid dynamics in conjunction with the Reynolds-Averaged Navier-Stokes approach is now...
National audienceThe implementation and validation of the second-moment Elliptic Blending Reynolds S...
A new explicit algebraic Reynolds stress model is derived based on the elliptic blending strategy to...
A new approach to modeling the effects of a solid wall in one-point second-moment (Reynolds-stress) ...
The performance of different low-Reynolds number turbulence models applied to various flows is descr...
RANS models are still the backbone of contemporary CFD methods because of their lower simulation cos...
Explicit algebraic stress models that are valid for three-dimensional turbulent flows in noninertial...
A numerical method is presented to solve the three-dimensional Navier-Stokes equations in combinatio...
International audienceAdaptive wall functions for the Low-Reynolds Number second moment closure turb...
In this thesis a new Navier-Stokes solver for complex three-dimensional geometries, adopting arbitr...
The Reynolds-Averaged Navier-Stokes (RANS) equations are still the backbone of numerical flow simula...
The elliptic-blending, lag parameter approach is developed for the conventional k — ω, linear eddy v...
A length-scale correction term is developed for the Speziale–Sarkar–Gatski/Launder–Reece–Rodi–ω Reyn...