Numerical solution for laminar unsteady flow about fixed and oscillating cylinders

  • László Baranyi University of Miskolc
  • Masataka Shirakashi Nagoya University of Technology

Abstract

This paper presents a finite-difference solution of the two-dimensional, time dependent incompressible Navier-Stokes equations for laminar flow about fixed and oscillating cylinders placed in an otherwise uniform flow. Using boundary fitted coordinates, the equations are transformed to a non-inertial reference frame fixed to the cylinder. The primitive variable formulation is used for the solution of the problem. A special transformation provides a fine grid scale near the cylinder walls and a coarse grid in the far field. Forward difference is used in time, fourth order central difference in space except for convective terms for which a modified third-order upwind scheme is used. Velocity values are obtained explicitly, and the successive over-relaxation (SOR) method yields the pressure distribution. Computed drag coefficients and dimensionless vortex shedding values were compared with experimental results for rigid cylinders and a very good agreement has been obtained. Amplitude bounds of locked-in vortex shedding due to forced crossflow oscillation of a circular cylinder are also determined for Re= 180.

Keywords

incompressible flow, Navier-Stokes equations, unsteady flow, laminar flow, bluff body, lock-in,

References

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[4] C.A.J. Fletcher. Computational Techniques for Fluid Dynamics, Vol. 2. Springer, 2nd Ed., Berlin, 1997.
[5] F.H. Harlow, J.E. Welch. Numerical calculation of time-dependent viscous incompressible flow of fluid with free surface. Physics of Fluids, 8, 2182-2189, 1965.
Published
Apr 18, 2023
How to Cite
BARANYI, László; SHIRAKASHI, Masataka. Numerical solution for laminar unsteady flow about fixed and oscillating cylinders. Computer Assisted Methods in Engineering and Science, [S.l.], v. 6, n. 3-4, p. 263-277, apr. 2023. ISSN 2956-5839. Available at: <https://cames.ippt.gov.pl/index.php/cames/article/view/1275>. Date accessed: 03 dec. 2024.
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Articles