In this paper, we present a two-dimensional computational framework for the simulation of fluid-structure interaction problems involving incompressible flexible solids and multiphase flows, further extending the application range of classical immersed computational approaches to the context of hydrodynamics. The proposed method aims to overcome shortcomings such as the restriction of having to deal with similar density ratios among different phases or the restriction to solve single-phase flows. First, a variation of classical immersed techniques, pioneered with the immersed boundary method (IBM), is presented by rearranging the governing equations, which define the behaviour of the multiple physics involved. The formulation is compatible w...
We present an efficient and stable method for simulating the two-way coupling of incompressible flui...
We introduce a fluid–structure interaction (FSI) framework for the resolution of two-phase fluid flo...
A numerical methodology is presented for simulating 3D multiphase flows through complex geometries o...
In this paper, we present a two-dimensional computational framework for the simulation of fluid-stru...
"The objective of this thesis is to further extend the application range of immersed computational a...
AbstractWithin the group of immersed boundary methods employed for the numerical simulation of fluid...
AbstractContinuum immersed strategies are widely used these days for the computational simulation of...
Takeo Kajishima and Shintaro Takeuchi, "Simulation of Fluid-Structure Interaction based on an Immers...
We present the implementation of a solution scheme for fluid-structure interaction problems via the...
This paper proposes a new Fluid-Structure Interaction immersed computational framework. The coupling...
Particles interacting with interfaces in multiphase flows appear in many scenarios of industrial int...
This paper describes innovative method for computing fluid solid interaction using Immersed boundary...
AbstractThis article introduces a numerical scheme on the basis of semi-implicit method for pressure...
The interaction of immersed rigid bodies with two-phase flow is of high interest in many application...
In this presentation, the Immersed Structural Potential Method (ISPM) will be presented along witha ...
We present an efficient and stable method for simulating the two-way coupling of incompressible flui...
We introduce a fluid–structure interaction (FSI) framework for the resolution of two-phase fluid flo...
A numerical methodology is presented for simulating 3D multiphase flows through complex geometries o...
In this paper, we present a two-dimensional computational framework for the simulation of fluid-stru...
"The objective of this thesis is to further extend the application range of immersed computational a...
AbstractWithin the group of immersed boundary methods employed for the numerical simulation of fluid...
AbstractContinuum immersed strategies are widely used these days for the computational simulation of...
Takeo Kajishima and Shintaro Takeuchi, "Simulation of Fluid-Structure Interaction based on an Immers...
We present the implementation of a solution scheme for fluid-structure interaction problems via the...
This paper proposes a new Fluid-Structure Interaction immersed computational framework. The coupling...
Particles interacting with interfaces in multiphase flows appear in many scenarios of industrial int...
This paper describes innovative method for computing fluid solid interaction using Immersed boundary...
AbstractThis article introduces a numerical scheme on the basis of semi-implicit method for pressure...
The interaction of immersed rigid bodies with two-phase flow is of high interest in many application...
In this presentation, the Immersed Structural Potential Method (ISPM) will be presented along witha ...
We present an efficient and stable method for simulating the two-way coupling of incompressible flui...
We introduce a fluid–structure interaction (FSI) framework for the resolution of two-phase fluid flo...
A numerical methodology is presented for simulating 3D multiphase flows through complex geometries o...