The study illustrates the possible advantages of using shock fitting techniques to solve transonic and supersonic flowfields. The governing equations are written in nonconservative form and solved by the Lambda scheme in the smooth regions of the flowfield. Shocks and contact discontinuities are solved explicitly, by an advanced version of a fitting technique, which allows accurate predictions of the location and propagation velocity of the discontinuities. Numerical tests are presented to show the capability of the technique to handle complex flow structures in both steady and unsteady regimes
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...
Even though shock-capturing techniques are the de-facto standard in the CFD simulation of turbo-mach...
Even though shock-capturing techniques are the de-facto standard in the CFD simulation of turbo-mac...
Even though shock-capturing techniques are the de-facto standard in the CFD simulation of turbo-mach...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
Even though shock-capturing techniques are the de-facto standard in the CFD simulation of turbo-mach...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
First-and second-order numerical procedures are presented for calculating two-dimensional transonic ...
In industry and research, CFD methods play an essential role in the study of compressible flows whic...
The numerical simulation of hypersonic flows past blunt bodies by means of shockcapturing (S-C) solv...
In this report a procedure is considered for fitting shock waves in transonic type-dependent finite-...
A new floating shock-fitting technique featuring the explicit computation of shocks by means of the ...
A novel shock-fitting algorithm is proposed in this paper. This technique has been designed to overc...
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...
Even though shock-capturing techniques are the de-facto standard in the CFD simulation of turbo-mach...
Even though shock-capturing techniques are the de-facto standard in the CFD simulation of turbo-mac...
Even though shock-capturing techniques are the de-facto standard in the CFD simulation of turbo-mach...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
Even though shock-capturing techniques are the de-facto standard in the CFD simulation of turbo-mach...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
First-and second-order numerical procedures are presented for calculating two-dimensional transonic ...
In industry and research, CFD methods play an essential role in the study of compressible flows whic...
The numerical simulation of hypersonic flows past blunt bodies by means of shockcapturing (S-C) solv...
In this report a procedure is considered for fitting shock waves in transonic type-dependent finite-...
A new floating shock-fitting technique featuring the explicit computation of shocks by means of the ...
A novel shock-fitting algorithm is proposed in this paper. This technique has been designed to overc...
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
The unstructured shock-fitting algorithm originally proposed in Ref. [3] has been further developed ...