From the steady Stokes and Navier-Stokes models, a penalization method has been considered by several authors for approximating those fluid equations around obstacles. In this work, we present a justification for using fictitious domains to study obstacles immersed in incompressible viscous fluids through a simplified version of Brinkman's law for porous media. If the scalar function psi is considered as the inverse of permeability, it is possible to study the singularities of psi as approximations of obstacles (when psi tends to infty ) or of the domain corresponding to the fluid (when psi = 0 or is very close to 0). The strong convergence of the solution of the perturbed problem to the solution of the strong problem is studied, also consi...
In this work, we present a stability result for the inverse problem of recovering a smooth scalar pe...
International audienceA penalization method is applied to model the interaction of large Mach number...
AbstractWe present a well-posed model for the Stokes/Brinkman problem with a family of jump embedded...
From the steady Stokes and Navier-Stokes models, a penalization method has been considered by severa...
Typical industrial and biological flows often occur in complicated domains that are either infeasibl...
Abstract: The results of numerical simulation of viscous compressible flows over obstacles...
International audienceThis paper deals with the comparison between two methods to treat immersed bou...
The method of fundamental solutions (MFS) is developed for solving numerically the Brinkman flow in ...
© 2019, Springer Nature B.V. The two key parameters of the Brinkman’s model for fluid flow in porous...
In part I, we considered the application of the method of fundamental solutions (MFS) for solving nu...
The steady state Stokes-Brinkman equations in a thin tube structure is considered. The Brinkman term...
in this paper we study a penalization method used to compute the flow of a viscous fluid around a th...
Abstract: in this paper we study a penalization method used to compute the ow of a viscous uid arou...
Abstract. To compute the ow around an obstacle, it is now quite classical to add in the equations a...
AbstractIn order to introduce solid obstacles into flows, several different methods are used, includ...
In this work, we present a stability result for the inverse problem of recovering a smooth scalar pe...
International audienceA penalization method is applied to model the interaction of large Mach number...
AbstractWe present a well-posed model for the Stokes/Brinkman problem with a family of jump embedded...
From the steady Stokes and Navier-Stokes models, a penalization method has been considered by severa...
Typical industrial and biological flows often occur in complicated domains that are either infeasibl...
Abstract: The results of numerical simulation of viscous compressible flows over obstacles...
International audienceThis paper deals with the comparison between two methods to treat immersed bou...
The method of fundamental solutions (MFS) is developed for solving numerically the Brinkman flow in ...
© 2019, Springer Nature B.V. The two key parameters of the Brinkman’s model for fluid flow in porous...
In part I, we considered the application of the method of fundamental solutions (MFS) for solving nu...
The steady state Stokes-Brinkman equations in a thin tube structure is considered. The Brinkman term...
in this paper we study a penalization method used to compute the flow of a viscous fluid around a th...
Abstract: in this paper we study a penalization method used to compute the ow of a viscous uid arou...
Abstract. To compute the ow around an obstacle, it is now quite classical to add in the equations a...
AbstractIn order to introduce solid obstacles into flows, several different methods are used, includ...
In this work, we present a stability result for the inverse problem of recovering a smooth scalar pe...
International audienceA penalization method is applied to model the interaction of large Mach number...
AbstractWe present a well-posed model for the Stokes/Brinkman problem with a family of jump embedded...