High-order methods that can resolve interactions of flow-disturbances with shock waves are critical for reliable numerical simulation of strong-shock and turbulence interaction problems. Such problems are not well understood due to limitations of numerical methods. Most of the popular shock-capturing methods are inherently dissipative and may incur numerical oscillations near the shock. Present paper is continuation of our previous work [1] on development and implementation of new algorithms based on shock-fitting and front-tracking methodology which can solve the flow with high-order accuracy near as well as away from the shocks. The shock-fitting algorithm avoids dissipation and possible numerical oscillations incurred in shock-capturing ...
A novel shock-fitting algorithm is proposed in this paper. This technique has been designed to overc...
The shock-fitting technique for unstructured grids that the authors have been developing over the la...
An unstructured, shock-fitting algorithm, originally developed to simulate inviscid flows, has been ...
A novel, unstructured, shock-fitting algorithm capable of simulating steady flows has being further ...
A novel, unstructured, shock-fitting algorithm capable of simulating steady flows has being further ...
A novel, unstructured, shock-fitting algorithm capable of simulating steady flows has being further ...
Over the years the development of structured-grid shock-fitting techniques faced two main problems: ...
The computation of flows with shocks by means of the shock-fitting technique was proposed by Morett...
A new shock-tracking technique that avoids re-meshing the computational grid around the moving shock...
In the past years, the development of structured shock-fitting techniques dealt with two main proble...
We propose a novel approach to approximate numerically shock waves. The method combines the unstruct...
A new shock-tracking technique that avoids re-meshing the computational grid around the moving shock...
A novel shock-fitting algorithm is proposed in this paper. This technique has been designed to overc...
The shock-fitting technique for unstructured grids that the authors have been developing over the la...
An unstructured, shock-fitting algorithm, originally developed to simulate inviscid flows, has been ...
A novel, unstructured, shock-fitting algorithm capable of simulating steady flows has being further ...
A novel, unstructured, shock-fitting algorithm capable of simulating steady flows has being further ...
A novel, unstructured, shock-fitting algorithm capable of simulating steady flows has being further ...
Over the years the development of structured-grid shock-fitting techniques faced two main problems: ...
The computation of flows with shocks by means of the shock-fitting technique was proposed by Morett...
A new shock-tracking technique that avoids re-meshing the computational grid around the moving shock...
In the past years, the development of structured shock-fitting techniques dealt with two main proble...
We propose a novel approach to approximate numerically shock waves. The method combines the unstruct...
A new shock-tracking technique that avoids re-meshing the computational grid around the moving shock...
A novel shock-fitting algorithm is proposed in this paper. This technique has been designed to overc...
The shock-fitting technique for unstructured grids that the authors have been developing over the la...
An unstructured, shock-fitting algorithm, originally developed to simulate inviscid flows, has been ...