International audienceThis paper constitutes the numerical counterpart of the mathematical framework introduced in Part I. We address the problem of flutter analysis of a coupled fluid-structure system involving an incompressible Newtonian fluid and a reduced structure. We use the Linearization Principle approach developed in Part I, particularly suited for fluid-structure problems involving moving boundaries. Thus, the stability analysis is reduced to the computation of the leftmost eigenvalues of a coupled eigenproblem of minimal complexity. This eigenproblem involves the linearized incompressible Navier-Stokes equations and those of a reduced linear structure. The coupling is realized through specific transpiration interface conditions. ...
The stability of relaxation techniques has been studied for strongly coupled fluid-structure interac...
Summary. The immersed boundary method is both a mathematical formulation and a numerical method for ...
Fluid Structure Interaction (FSI) numerical modelling requires an efficient workflow to properly cap...
International audienceThis paper constitutes the numerical counterpart of the mathematical framework...
International audienceThe aim of this work is to provide a new Linearization Principle approach part...
Guy Chavent (president), Alfredo Bermudez, M. Frédéric Bourquin (rapporteurs), M. Dominique Chapelle...
In this work, we present a novel approach to perform the linear stability analysis of fluid-structur...
In this paper we suggest some algorithms for the fluid-structure interaction problem stated using a ...
We study the numerical stabilization of a fluid-structure interaction system in a wind tunnel, aroun...
In the conventional approach for fluid-structure interaction problems, the fluid and solid component...
The computational procedure presented in this study is focussed on the time-dependent solution of tw...
AbstractThe present paper investigates the flow induced dynamics of a non-linear fluid-structure int...
Abstract. In this paper we suggest some algorithms for the fluid-structure interaction problem state...
This paper is interested in solution of two-dimensional aeroelastic problems. Two mathematical model...
The stability of relaxation techniques has been studied for strongly coupled fluid-structure interac...
Summary. The immersed boundary method is both a mathematical formulation and a numerical method for ...
Fluid Structure Interaction (FSI) numerical modelling requires an efficient workflow to properly cap...
International audienceThis paper constitutes the numerical counterpart of the mathematical framework...
International audienceThe aim of this work is to provide a new Linearization Principle approach part...
Guy Chavent (president), Alfredo Bermudez, M. Frédéric Bourquin (rapporteurs), M. Dominique Chapelle...
In this work, we present a novel approach to perform the linear stability analysis of fluid-structur...
In this paper we suggest some algorithms for the fluid-structure interaction problem stated using a ...
We study the numerical stabilization of a fluid-structure interaction system in a wind tunnel, aroun...
In the conventional approach for fluid-structure interaction problems, the fluid and solid component...
The computational procedure presented in this study is focussed on the time-dependent solution of tw...
AbstractThe present paper investigates the flow induced dynamics of a non-linear fluid-structure int...
Abstract. In this paper we suggest some algorithms for the fluid-structure interaction problem state...
This paper is interested in solution of two-dimensional aeroelastic problems. Two mathematical model...
The stability of relaxation techniques has been studied for strongly coupled fluid-structure interac...
Summary. The immersed boundary method is both a mathematical formulation and a numerical method for ...
Fluid Structure Interaction (FSI) numerical modelling requires an efficient workflow to properly cap...