Add to ORKGThe objective of this research is to develop an efficient, time-accurate numerical algorithm to discretize the Navier-Stokes equations for the predictions of internal one-, two-dimensional and axisymmetric flows. A generic, efficient, elliptic adaptive grid generator is implicitly coupled with the Lower-Upper factorization scheme in the development of ALUNS computer code. The calculations of one-dimensional shock tube wave propagation and two-dimensional shock wave capture, wave-wave interactions, shock wave-boundary interactions show that the developed scheme is stable, accurate and extremely robust. The adaptive grid generator produced a very favorable grid network by a grid speed technique. This generic adaptive grid generator is also ap...
This thesis deals with the high-fidelity prediction of viscous turbulent flows modelized by the Reyn...
The-present work on grid generation is the Phase I of a project titled 'Hypersonic Flow Studies' tha...
Research on the computational fluid dynamics (CFD) code evaluation with emphasis on supercomputing i...
Cartesian grids employ specially designed algorithms to generate automatic grids for complex geometr...
This work is a first step in the understanding of the interaction process between internal shock wav...
In an effort to improve the current solutions in the design and analysis of liquid propulsive engine...
Computational Fluid Dynamics is beginning to play a major role in the design of aerospace vehicles. ...
The primary objective of this project was to develop an adaptive finite element flow solver for simu...
During the development of computational methods that solve time dependent shock hydrodynamic proble...
The efforts in geometry modeling and grid generation at the NASA Lewis Research Center, as applied t...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
This thesis deals with the high-fidelity prediction of viscous turbulent flows modelized by the Reyn...
This thesis deals with the high-fidelity prediction of viscous turbulent flows modelized by the Reyn...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
Algorithms and computer code developments were performed for the overset grid approach to solving co...
This thesis deals with the high-fidelity prediction of viscous turbulent flows modelized by the Reyn...
The-present work on grid generation is the Phase I of a project titled 'Hypersonic Flow Studies' tha...
Research on the computational fluid dynamics (CFD) code evaluation with emphasis on supercomputing i...
Cartesian grids employ specially designed algorithms to generate automatic grids for complex geometr...
This work is a first step in the understanding of the interaction process between internal shock wav...
In an effort to improve the current solutions in the design and analysis of liquid propulsive engine...
Computational Fluid Dynamics is beginning to play a major role in the design of aerospace vehicles. ...
The primary objective of this project was to develop an adaptive finite element flow solver for simu...
During the development of computational methods that solve time dependent shock hydrodynamic proble...
The efforts in geometry modeling and grid generation at the NASA Lewis Research Center, as applied t...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
This thesis deals with the high-fidelity prediction of viscous turbulent flows modelized by the Reyn...
This thesis deals with the high-fidelity prediction of viscous turbulent flows modelized by the Reyn...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
Algorithms and computer code developments were performed for the overset grid approach to solving co...
This thesis deals with the high-fidelity prediction of viscous turbulent flows modelized by the Reyn...
The-present work on grid generation is the Phase I of a project titled 'Hypersonic Flow Studies' tha...
Research on the computational fluid dynamics (CFD) code evaluation with emphasis on supercomputing i...