Add to ORKGIn this study, two-dimensional inviscid compressible flow is solved around a moving solid body using Immersed Boundary Method (IBM) on a Cartesian grid. Translational motion is handled with a Cartesian grid generated around the body which moves with body on a background grid. In IBM, boundaries are immersed within the grid points. In this paper solution domain is discretized using finite volume approach. To implement boundary conditions on immersed boundaries, a set of Ghost finite volumes are defined along the wall boundaries. Boundary conditions are used to assign flow variables on these Ghost finite volumes. Governing equations are solved using dual time step method of Jameson. Finally, numerical results obtained from the present s...
A non-boundary conforming formulation for simulating complex flows with moving solid boundaries on f...
International audienceA novel implicit immersed boundary method of high accuracy and efficiency is p...
In this chapter, an accurate method, using a novel immersed-boundary approach, is presented for nume...
In this chapter, an accurate method, using a novel immersed-boundary approach, is presented for nume...
Numerical simulations of compressible flows around moving solids are a crucial target in many engine...
We present an immersed-boundary algorithm for incompressible flows with complex boundaries, suitable...
A new conserving approach in the context of Immersed Boundary Method (IBM) is presented to simulate ...
A Cartesian grid method has been developed for simulating two-dimensional unsteady, viscous, incompr...
International audienceWe present an immersed-boundary algorithm for incompressible flows with comple...
In the literature immersed boundary methods are employed to simulate complex flows around moving arb...
A simplified, low order finite volume Cartesian grid method for inviscid compressible flow over rigi...
In the literature immersed boundary methods are employed tosimulate complex flows around moving arbi...
Two immersed boundary methods (IBM) for the simulation of conjugate heat transfer problems with comp...
International audienceThe present manuscript describes the implementation of an immersed boundary me...
ABSTRACT In this study conservation equations were implemented along the boundaries via ghost contro...
A non-boundary conforming formulation for simulating complex flows with moving solid boundaries on f...
International audienceA novel implicit immersed boundary method of high accuracy and efficiency is p...
In this chapter, an accurate method, using a novel immersed-boundary approach, is presented for nume...
In this chapter, an accurate method, using a novel immersed-boundary approach, is presented for nume...
Numerical simulations of compressible flows around moving solids are a crucial target in many engine...
We present an immersed-boundary algorithm for incompressible flows with complex boundaries, suitable...
A new conserving approach in the context of Immersed Boundary Method (IBM) is presented to simulate ...
A Cartesian grid method has been developed for simulating two-dimensional unsteady, viscous, incompr...
International audienceWe present an immersed-boundary algorithm for incompressible flows with comple...
In the literature immersed boundary methods are employed to simulate complex flows around moving arb...
A simplified, low order finite volume Cartesian grid method for inviscid compressible flow over rigi...
In the literature immersed boundary methods are employed tosimulate complex flows around moving arbi...
Two immersed boundary methods (IBM) for the simulation of conjugate heat transfer problems with comp...
International audienceThe present manuscript describes the implementation of an immersed boundary me...
ABSTRACT In this study conservation equations were implemented along the boundaries via ghost contro...
A non-boundary conforming formulation for simulating complex flows with moving solid boundaries on f...
International audienceA novel implicit immersed boundary method of high accuracy and efficiency is p...
In this chapter, an accurate method, using a novel immersed-boundary approach, is presented for nume...