We consider the coupling of the compressible Navier-Stokes equations with the heat equation as a model for cooling processes in steel forming. The semidiscrete coupled system is solved using stiffly stable SDIRK methods of higher order, where on each stage, a fluid-structure interaction problem is solved. textcopyright 2009 American Institute of Physics
Time-accurate simulations of the thermal interaction of flows and structures, also referred to as co...
The aim of this thesis is to develop and then to implement a framework for numerical simulation of f...
http://link.aip.org/link/?APCPCS/712/2276/1International audienceA mixed continuous temperature / he...
We consider time-dependent thermal fluid structure interaction. The respective models are the compre...
We consider thermal fluid structure interaction to model industrial gas quenching in steel forging, ...
Thermal interaction of fluids and solids, or conjugate heat transfer (CHT), is en-countered in many ...
The application of higher order implicit time integration schemes to conjugate heat transfer problem...
Thermal interaction of fluids and solids, or conjugate heat transfer (CHT), is encountered in many e...
The coupled Eulerian-Lagrangian formulation is an efficient tool for modelling and simulation of met...
International audienceComputer modelling of metal forming processes started more than thirty years a...
International audienceThe thermal analysisusing standardlinear tetrahedral finite elements may be se...
The impetus toward development of a hydrogen-fueled scramjet engine to accelerate aerospace vehicles...
The simulation of fluid-structure interaction can be a very time-consuming task due to the large amo...
Abstract: New time integration algorithm LI-M is proposed for the Navier-Stokes equations ...
Abstract This paper deals with conjugate heat transfer problems for the time-dependent compressible ...
Time-accurate simulations of the thermal interaction of flows and structures, also referred to as co...
The aim of this thesis is to develop and then to implement a framework for numerical simulation of f...
http://link.aip.org/link/?APCPCS/712/2276/1International audienceA mixed continuous temperature / he...
We consider time-dependent thermal fluid structure interaction. The respective models are the compre...
We consider thermal fluid structure interaction to model industrial gas quenching in steel forging, ...
Thermal interaction of fluids and solids, or conjugate heat transfer (CHT), is en-countered in many ...
The application of higher order implicit time integration schemes to conjugate heat transfer problem...
Thermal interaction of fluids and solids, or conjugate heat transfer (CHT), is encountered in many e...
The coupled Eulerian-Lagrangian formulation is an efficient tool for modelling and simulation of met...
International audienceComputer modelling of metal forming processes started more than thirty years a...
International audienceThe thermal analysisusing standardlinear tetrahedral finite elements may be se...
The impetus toward development of a hydrogen-fueled scramjet engine to accelerate aerospace vehicles...
The simulation of fluid-structure interaction can be a very time-consuming task due to the large amo...
Abstract: New time integration algorithm LI-M is proposed for the Navier-Stokes equations ...
Abstract This paper deals with conjugate heat transfer problems for the time-dependent compressible ...
Time-accurate simulations of the thermal interaction of flows and structures, also referred to as co...
The aim of this thesis is to develop and then to implement a framework for numerical simulation of f...
http://link.aip.org/link/?APCPCS/712/2276/1International audienceA mixed continuous temperature / he...
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