Unsteady flow about a sphere at low to moderate Reynolds number. Part 1. Oscillatory motion

Author:

Chang Eugene J.,Maxey Martin R.

Abstract

A direct numerical simulation, based on spectral methods, has been used to compute the time-dependent, axisymmetric viscous flow past a rigid sphere. An investigation has been made for oscillatory flow about a zero mean for different Reynolds numbers and frequencies. The simulation has been verified for steady flow conditions, and for unsteady flow there is excellent agreement with Stokes flow theory at very low Reynolds numbers. At moderate Reynolds numbers, around 20, there is good general agreement with available experimental data for oscillatory motion. Under steady flow conditions no separation occurs at Reynolds number below 20; however in an oscillatory flow a separation bubble forms on the decelerating portion of each cycle at Reynolds numbers well below this. As the flow accelerates again the bubble detaches and decays, while the formation of a new bubble is inhibited till the flow again decelerates. Steady streaming, observed for high frequencies, is also observed at low frequencies due to the flow separation. The contribution of the pressure to the resultant force on the sphere includes a component that is well described by the usual added-mass term even when there is separation. In a companion paper the flow characteristics for constant acceleration or deceleration are reported.

Publisher

Cambridge University Press (CUP)

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics

Reference40 articles.

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2. Bassett, A. B. 1888 A Treatise in Hydrodynamics ,Vol. II.Deighton, Bell, and Co.

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4. Natarajan, R. & Acrivos, A. 1993 The instability of the steady flow past spheres and disks.J. Fluid Mech. 254,323–344.

5. Chang, E. J. & Maxey, M. R. 1994 Unsteady flow about a sphere at low to moderate Reynolds number. Part 2. Accelerated motion.J. Fluid Mech. (submitted).

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