An unstructured, shock-fitting algorithm, originally developed to simulate inviscid flows, has been further developed to make it capable of dealing withshock-wave/boundary-layer interactions (SWBLI). This paper illustrates thenewly implemented algorithmic features of this technique and its applicationto two-dimensional flow-configurations representative of three different SWBLI patterns. A detailed comparison between the numerical solutions obtained us-ing the aforementioned shock-fitting and a “state-of-the-art” shock-capturingtechnique on nearly identical meshes will also be given. More specifically, qualitative and quantitative grid-convergence analyses will be presented to show the significant achievements in ...
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 new shock-fitting technique has been recently proposed and implemented by the authors in conjunct...
An unstructured, shock-fitting algorithm, originally developed to simulate inviscid flows, has been ...
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
A novel, unstructured, shock-fitting algorithm capable of simulating unsteady flows has recently bei...
A new shock-fitting technique has been recently proposed and implemented by the authors in conjuncti...
A new shock-fitting technique has been recently proposed and implemented by the authors in conjuncti...
An unstructured, shock-fitting algorithm, originally developed to simulate steady flows, has being f...
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 ...
A new shock-fitting technique has been recently proposed and implemented by the authors in conjunct...
An unstructured, shock-fitting algorithm, originally developed to simulate inviscid flows, has been ...
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
A novel, unstructured, shock-fitting algorithm capable of simulating unsteady flows has recently bei...
A new shock-fitting technique has been recently proposed and implemented by the authors in conjuncti...
A new shock-fitting technique has been recently proposed and implemented by the authors in conjuncti...
An unstructured, shock-fitting algorithm, originally developed to simulate steady flows, has being f...
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 ...
A new shock-fitting technique has been recently proposed and implemented by the authors in conjunct...