CUPyDO, a fluid-structure interaction (FSI) tool that couples existing independent fluid and solid solvers into a single synchronization and communication framework based on the Python language is presented. Each coupled solver has to be wrapped in a Python layer in order to embed their functionalities (usually written in a compiled language) into a Python object, that is called and used by the coupler. Thus a staggered strong coupling can be achieved for time-dependent FSI problems such as aeroelastic flutter, vortex-induced vibrations (VIV) or conjugate heat transfer (CHT). The synchronization between the solvers is performed with the predictive block-Gauss-Seidel algorithm with dynamic under-relaxation. The tool is capable of treating no...
This research work evaluates the performance of a Fluid-Structure Interaction (FSI) solver, which is...
The simulation of multiphysical scenarios has become a more and more important task of scientific co...
International audienceThe main focus of the present article is the development of a general solution...
A Fluid-Structure Interaction (FSI) tool that couples existing independent fluid and soli...
We report on an international effort to develop an open-source computational environment for high-fi...
Current research efforts in aeroelasticity aim at including higher fidelity aerodynamic results into...
Fluid-structure interactions (FSI) are multi-physical phenomena where the dynamics of a fluid flow a...
Brief description of a code coupling methodology based on Python wrapping for simulations of fluid-s...
This study presents an approach for partitioned fluid-structure interaction (FSI) applied to large s...
In this paper we discuss the benefits obtained by the use of Python in our CFD computations. Our res...
The fluid-structure interaction (FSI) problem has received great attention in the last few years, ma...
This paper discuss a coupling strategy of two different software packages to provide fluid structure...
The main goal of this work is the development of an efficient coupling algorithm for solving various...
International audienceThe Python package fluidsim is introduced in this article as an extensible fra...
Simulating coupled-field problems belongs to one of the most interesting and demanding topics in eng...
This research work evaluates the performance of a Fluid-Structure Interaction (FSI) solver, which is...
The simulation of multiphysical scenarios has become a more and more important task of scientific co...
International audienceThe main focus of the present article is the development of a general solution...
A Fluid-Structure Interaction (FSI) tool that couples existing independent fluid and soli...
We report on an international effort to develop an open-source computational environment for high-fi...
Current research efforts in aeroelasticity aim at including higher fidelity aerodynamic results into...
Fluid-structure interactions (FSI) are multi-physical phenomena where the dynamics of a fluid flow a...
Brief description of a code coupling methodology based on Python wrapping for simulations of fluid-s...
This study presents an approach for partitioned fluid-structure interaction (FSI) applied to large s...
In this paper we discuss the benefits obtained by the use of Python in our CFD computations. Our res...
The fluid-structure interaction (FSI) problem has received great attention in the last few years, ma...
This paper discuss a coupling strategy of two different software packages to provide fluid structure...
The main goal of this work is the development of an efficient coupling algorithm for solving various...
International audienceThe Python package fluidsim is introduced in this article as an extensible fra...
Simulating coupled-field problems belongs to one of the most interesting and demanding topics in eng...
This research work evaluates the performance of a Fluid-Structure Interaction (FSI) solver, which is...
The simulation of multiphysical scenarios has become a more and more important task of scientific co...
International audienceThe main focus of the present article is the development of a general solution...