Under the support of this Cooperative Agreement, computations of transonic flow past the complex forebody/inlet configuration of the AV-8B Harrier II have been performed. The actual aircraft configuration was measured and its surface and surrounding domain were defined using computational structured grids. The thin-layer Navier-Stokes equations were used to model the flow along with the Chimera embedded multi-grid technique. A fully conservative, alternating direction implicit (ADI), approximately-factored, partially flux-split algorithm was employed to perform the computation. An existing code was altered to conform with the needs of the study, and some special engine face boundary conditions were developed. The algorithm incorporated the ...
The capability of two numerical methods, one for transonic and one for supersonic flows, to predict ...
A computational study was performed for a Hybrid Wing Body configuration that was focused at transon...
The object of Cooperative Agreement NCC2-452 was to identify, develop, and document reliable turbule...
A computer analysis was developed for calculating steady (or unsteady) three-dimensional aircraft co...
A new approach to simulating transonic flow about transport configurations is briefly outlined. The ...
Fine-grid Navier-Stokes solutions were obtained for flow over the fuselage forebody and wing leading...
Using a zonal technique, thin layer Navier-Stokes solutions for two high speed inlet geometries are ...
The report describes progress in research directed towards the efficient solution of the inviscid Eu...
The capability of two numerical methods to predict the flow field about a representative supersonic ...
The current research is aimed at developing and extending numerical methods to accurately predict th...
The general problem of calculating the flow fields associated with hypersonic airbreathing aircraft ...
An airfoil design program and a boundary layer analysis were developed. Boundary conditions were der...
The viscous, transonic flow development around the SKF 1.1 supercritical aerofoil section, in clean ...
Computational fluid dynamics has an increasingly important role in the design and analysis of aircra...
This research has been aimed at validating numerical methods for computing the flow about the comple...
The capability of two numerical methods, one for transonic and one for supersonic flows, to predict ...
A computational study was performed for a Hybrid Wing Body configuration that was focused at transon...
The object of Cooperative Agreement NCC2-452 was to identify, develop, and document reliable turbule...
A computer analysis was developed for calculating steady (or unsteady) three-dimensional aircraft co...
A new approach to simulating transonic flow about transport configurations is briefly outlined. The ...
Fine-grid Navier-Stokes solutions were obtained for flow over the fuselage forebody and wing leading...
Using a zonal technique, thin layer Navier-Stokes solutions for two high speed inlet geometries are ...
The report describes progress in research directed towards the efficient solution of the inviscid Eu...
The capability of two numerical methods to predict the flow field about a representative supersonic ...
The current research is aimed at developing and extending numerical methods to accurately predict th...
The general problem of calculating the flow fields associated with hypersonic airbreathing aircraft ...
An airfoil design program and a boundary layer analysis were developed. Boundary conditions were der...
The viscous, transonic flow development around the SKF 1.1 supercritical aerofoil section, in clean ...
Computational fluid dynamics has an increasingly important role in the design and analysis of aircra...
This research has been aimed at validating numerical methods for computing the flow about the comple...
The capability of two numerical methods, one for transonic and one for supersonic flows, to predict ...
A computational study was performed for a Hybrid Wing Body configuration that was focused at transon...
The object of Cooperative Agreement NCC2-452 was to identify, develop, and document reliable turbule...