International audienceThe application of large-eddy simulations to conjugate heat transfer problems can promisingly provide accurate results, including fluctuating heat loads which are critical for thermal fatigue. Such simulations rely on separate solvers and a coupling methodology which must be accurate and robust. In this context, the Hybrid-Cell Neumann-Dirichlet (HCND) coupling approach can adapt dynamically the coupling frequency given a desired accuracy. However, in order to determine statistics (mean, RMS,. . .) in a permanent regime, this approach must benefit from an acceleration technique which is here first derived and validated. Two configurations of a wall-impinging flame are then simulated: a quasi-steady case and a pulsated ...
Reliable transient thermal analysis plays a very important role in the engine safety analysis. Trans...
In this paper, advanced wall-modeled large eddy simulation (LES) techniques are used to predict conj...
A two-dimensional model for heat transfer in a "simulated flame" modeled as an embedded heat source ...
International audienceThe application of large-eddy simulations to conjugate heat transfer problems ...
International audienceTackling transient conjugate heat transfer with high-fidelity methods such as ...
International audienceA multi-physics simulation combining large-eddy simulation, conjugate heat tra...
International audienceA multi-physics simulation combining large-eddy simulation , conjugate heat tr...
The primary requirement for high pressure turbine heat transfer designs is to predict blade metal te...
A numerical assessment of different thermal conditions for an impinging flame configuration is inves...
A finite-volume two-dimensional plane/axisymmetric heat-conduction solver for solid materials has be...
Time-accurate simulations of the thermal interaction of flows and structures, also referred to as co...
Accurate prediction of unsteady thermal loads is of paramount importance in several engineering disc...
A finite-volume two-dimensional plane/axisymmetric heat-conduction solver for solid materials has be...
Two-dimensional direct numerical simulations (DNSs) are performed to study the effect of wall heat t...
Conjugate heat-transfer problems are typically solved using partitioned methods where fluid and soli...
Reliable transient thermal analysis plays a very important role in the engine safety analysis. Trans...
In this paper, advanced wall-modeled large eddy simulation (LES) techniques are used to predict conj...
A two-dimensional model for heat transfer in a "simulated flame" modeled as an embedded heat source ...
International audienceThe application of large-eddy simulations to conjugate heat transfer problems ...
International audienceTackling transient conjugate heat transfer with high-fidelity methods such as ...
International audienceA multi-physics simulation combining large-eddy simulation, conjugate heat tra...
International audienceA multi-physics simulation combining large-eddy simulation , conjugate heat tr...
The primary requirement for high pressure turbine heat transfer designs is to predict blade metal te...
A numerical assessment of different thermal conditions for an impinging flame configuration is inves...
A finite-volume two-dimensional plane/axisymmetric heat-conduction solver for solid materials has be...
Time-accurate simulations of the thermal interaction of flows and structures, also referred to as co...
Accurate prediction of unsteady thermal loads is of paramount importance in several engineering disc...
A finite-volume two-dimensional plane/axisymmetric heat-conduction solver for solid materials has be...
Two-dimensional direct numerical simulations (DNSs) are performed to study the effect of wall heat t...
Conjugate heat-transfer problems are typically solved using partitioned methods where fluid and soli...
Reliable transient thermal analysis plays a very important role in the engine safety analysis. Trans...
In this paper, advanced wall-modeled large eddy simulation (LES) techniques are used to predict conj...
A two-dimensional model for heat transfer in a "simulated flame" modeled as an embedded heat source ...