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There are a total of 18 record(s) matching your query.
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Potential applications of computational fluid dynamics to biofluid analysis
Author(s): Kwak, D.; Chang, J. L.; Rogers, S. E.; Rosenfeld, M.
Abstract: No abstract available
NASA Center: Ames Research Center Publication Year: 1990
Added to NTRS: 2006-08-02
Document ID: 20050000882
Three-dimensional incompressible Navier-Stokes computations of internal flows
Author(s): Kwak, D.; Chang, J. L. C.; Rogers, S. E.; Rosenfeld, M.; Kwak, D.
Abstract: Several incompressible Navier-Stokes solution methods for obtaining steady and unsteady solutions are discussed. Special attention is given to internal flows which involve distinctly different features from external flows. ...
NASA Center: Ames Research Center Publication Year: 1988
Added to NTRS: 2005-10-13
Accession Number: 88N19425; Document ID: 19880010041; Report Number: A-88111, NAS 1.15:100076, NASA-TM-100076
A numerical study of incompressible juncture flows
Author(s): Kwak, D.; Rogers, S. E.; Kaul, U. K.; Chang, J. L. C.
Abstract: The laminar, steady juncture flow around single or multiple posts mounted between two flat plates is simulated using the three dimensional incompressible Navier-Stokes code, INS3D. The three dimensional separation of the ...
NASA Center: Ames Research Center Publication Year: 1986
Added to NTRS: 2005-10-13
Accession Number: 87N14644; Document ID: 19870005211; Report Number: A-86305, NAS 1.15:88319, NASA-TM-88319
Combination Of Techniques For Computing Incompressible Flow
Author(s): Kwak, D.; Rogers, S. E.
Abstract: Pseudocompressibility, upwind differencing, and other techniques used to solve Navier-Stokes equations. Scheme for finite-difference numerical solution of two-dimensional Navier-Stokes equations of incompressible flow ...
NASA Center: Ames Research Center Publication Year: 1990
Added to NTRS: 2005-09-30
Accession Number: 90B10290; Document ID: 19900000290; Report Number: ARC-12257
Computing Blood Flows
Author(s): Kwak, D.; Chang, J. L. C.; Rogers, S. E.; Rosenfeld, M.
Abstract: Methods developed for aerospace applied to mechanics of biofluids. Report argues use of advanced computational fluid dynamics to analyze flows of biofluids - especially blood. Ability to simulate numerically and visualize ...
NASA Center: Ames Research Center Publication Year: 1990
Added to NTRS: 2005-09-30
Accession Number: 90B10546; Document ID: 19900000546; Report Number: ARC-12253
Faster Algorithm For Computation Of Incompressible Flow
Author(s): Rogers, S. E.; Kwak, D.; Kiris, C.
Abstract: Improved algorithm yields faster numerical solutions of Navier-Stokes equations of steady or unsteady three-dimensional flow of incompressible fluid. In artificial-compressibility method, unsteady flow treated as ...
NASA Center: Ames Research Center Publication Year: 1991
Added to NTRS: 2005-09-30
Accession Number: 91B10058; Document ID: 19910000058; Report Number: ARC-12370
Methods Of Simulation Of Incompressible Flow
Author(s): Dwak, D.; Chang, J. L. C.; Yang, R-J; Rogers, S. E.
Abstract: Report discusses methods for numerical simulation of Navier-Stokes equations of viscous, incompressible flow, with emphasis on pseudocompressibility method. Advanced computational techniques reviewed contribute to improved ...
NASA Center: Ames Research Center Publication Year: 1991
Added to NTRS: 2005-09-30
Accession Number: 91B10673; Document ID: 19910000673; Report Number: ARC-12199
RIP-REMOTE INTERACTIVE PARTICLE-TRACER
Author(s): Rogers, S. E.
Abstract: Remote Interactive Particle-tracing (RIP) is a distributed-graphics program which computes particle traces for computational fluid dynamics (CFD) solution data sets. A particle trace is a line which shows the path a massless ...
NASA Center: Ames Research Center Publication Year: 1994
Added to NTRS: 2005-08-26
Accession Number: 94M10036; Document ID: 19940002493; Report Number: ARC-12430
Numerical solution of the incompressible Navier-Stokes equations in three-dimensional generalized curvilinear coordinates
Author(s): Rogers, S. E.; Kwak, D.; Chang, J. L. C.
Abstract: Numerically solving the incompressible Navier-Stokes equations is known to be time consuming and expensive. Testing of the INS3D computers code, which solves these equations with the use of the pseudocompressibility method, ...
NASA Center: Ames Research Center Publication Year: 1986
Added to NTRS: 2005-08-25
Accession Number: 87N11964; Document ID: 19870002531; Report Number: A-85413, NAS 1.15:86840, NASA-TM-86840
Numerical simulation methods of incompressible flows and an application to the space shuttle main engine
Author(s): Chang, J. L. C.; Kwak, D.; Rogers, S. E.; Yang, R.-J.
Abstract: Incompressible Navier-Stokes solution methods are discussed with an emphasis on the pseudocompressibility method. A steady-state flow solver based on the pseudocompressibility approach is then described. This flow-solver ...
NASA Center: Ames Research Center Publication Year: 1988
Added to NTRS: 2005-08-25
Accession Number: 90N20333; Document ID: 19900011017; Report Number: A-88017, NAS 1.15:100038, NASA-TM-100038
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