Authors: Rajendra K. Ray, H. V. R. Mittal

Abstract:

A numerical study is made of laminar, unsteady flow behind a rotationally oscillating circular cylinder using a recently developed higher order compact (HOC) scheme. The stream function vorticity formulation of Navier-Stokes (N-S) equations in cylindrical polar coordinates are considered as the governing equations. The temporal behaviour of vortex formation and relevant streamline patterns of the flow are scrutinized over broad ranges of two externally specified parameters namely dimensionless forced oscillating frequency Sf and dimensionless peak rotation rate αm for the Reynolds-s number Re = 200. Excellent agreements are found both qualitatively and quantitatively with the existing experimental and standard numerical results.

Keywords: HOC, Navier-Stokes, non-uniform polar grids, rotationally oscillating cylinder.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1080177

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1579

References:

[1] J. C. Kalita, A. K. Dass, D. C. Dalal, "A transformation-free HOC scheme for steady-state convection diffusion on non-uniform grids", Int. J. Numer. Methods Fluids, vol. 44, pp. 33-53, 2004.
[2] J. C. Kalita, and R. K. Ray, "A transformation-free HOC scheme for incompressible viscous flows past an impulsively started circular cylinder", J. Computational Physics, vol. 228, pp. 5207-5236, 2009.
[3] R. K. Ray, and J. C. Kalita, "A transformation-free HOC scheme for incompressible viscous flows on non-uniform polar grids", Int. J. Numer. Methods Fluids, vol. 62, pp. 683-708, 2010.
[4] R. K. Ray, "A transformation free HOC scheme for incompressible viscous flow past a rotating and translating circular cylinder", J. Sci. Comput., vol. 46, pp. 265-293, 2011.
[5] M. Cheng, Y. T. Chew, and S. C. Luo, "Numerical investigation of a rotationally oscillating cylinder in a mean flow", J. Fluids and Structures, vol. 15, pp. 981-1007, 2001.
[6] X. Y. Lu, and J. Sato, "A numerical study of flow past a rotationally oscillating circular cylinder", J. Fluids and Structures, vol. 10, pp. 829- 849, 1996.