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Investigation of periodic boundary conditions in multi-passage cascade flows using overset grids
Date
1998-01-01
Author
Tuncer, İsmail Hakkı
Sanz, Wolfgang
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A Navier-Stokes solution method with overset grids is applied to unsteady multi-passage cascade flows, and the unsteady blade loadings are compared against the single passage solutions with the direct store interblade boundary condition. In the overset grid solutions, the multi-passage domain is discretized with O-type grids around each blade and a rectangular background grid. Blade grids are allowed to move in time relative to the background grid as prescribed by the oscillatory plunging motion. The overset grid method uses a simple, robust numerical algorithm to localize moving intergrid boundary points and to interpolate solution variables across grids. Computational results are presented for two and four passage, subsonic and transonic flows through a turbine and a compressor cascade. The overset grid solutions over the multi-passage periodic domains agree well with the single passage solutions and the experimental data. It is concluded that the time linearization error introduced by the direct store approach is negligible in the range of flow conditions studied.
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https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=0031649766&origin=inward
https://hdl.handle.net/11511/79444
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Investigation of periodic boundary conditions in multipassage cascade flows using overset grids
Tuncer, İsmail Hakkı; Sanz, W (ASME International, 1999-04-01)
A Navier-Stokes solutions method with overset grids is applied to unsteady multipassage cascade flows, and the unsteady blade loadings are compared against the single-passage solutions with the direct store interblade boundary condition. In the overset grid solutions, the multipassage domain is discretized with O-type grids around each blade and a rectangular background grid. Blade grids are allowed to move in time relative to the background grid as prescribed by the oscillatory plunging motion. The overset...
Investigation of periodic boundary conditions in multi-passage cascade flows using overset grids
Tuncer, İsmail Hakkı; Sanz, Wolfgang (1998-01-01)
Copyright © 1998 by ASME.A Navier-Stokes solution method with overset grids is applied to unsteady multi-passage cascade flows, and the unsteady blade loadings are compared against the single passage solutions with the direct store interblade boundary condition. In the overset grid solutions, the multipassage domain is discretized with O-type grids around each blade and a rectangular background grid. Blade grids are allowed to move in time relative to the background grid as prescribed by the oscillatory plu...
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Mchugh, A.j.; Yılmaz, Levent (American Chemical Society; 1986-09-01)
Asymmetric membranes are generally prepared by the phase inversion techniques, the principal steps of which involve casting a thin film of a homogeneous polymer solution onto a suitable substrate, followed by quenching in a nonsolvent bath to precipitate the membrane film. Since most studies of the process has been concerned with the development of specific preparation recipies, explanations of structure formation have generally been ad-hoc and qualitative. This paper presents the results of recent modellin...
Computation of multi-passage cascade flows with overset and deforming grids
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An overset grid method is applied to the solution of single and multi-passage cascade flows with a compressible Navier-Stokes solver. C-type grids around individual blades are overset onto a Cartesian background grid. Overset grids are allowed to move in time relative to each other as prescribed by the oscillatory plunging motion. The overset grid method uses a simple, robust numerical algorithm to localize moving boundary points and to interpolate solution variables across intergrid boundaries. Computation...
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İ. H. Tuncer and W. Sanz, “Investigation of periodic boundary conditions in multi-passage cascade flows using overset grids,” 1998, Accessed: 00, 2021. [Online]. Available: https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=0031649766&origin=inward.