Li, Y. and Blyth, M.G.
(2009)
*Axisymmetric flow of two fluids in a pulsating pipe.*
Journal of Engineering Mathematics, 63 (1).
pp. 135-151.
ISSN 0022-0833

## Abstract

The motion of a viscous thread surrounded by an annular viscous layer inside a pulsating cylindrical pipe whose radius is a periodic function of time is investigated. At zero Reynolds number, a stagnation-point-type solution may be written down in closed form. A Floquet linear stability analysis for Stokes flow reveals the pulsations either decrease or increase the growth rate of longwave disturbances depending on the initial radius of the thread. For a moderate-sized initial thread radius, increasing the amplitude of the pulsations decreases the critical wavenumber for instability to below the classical Rayleigh threshold. Increasing the viscosity contrast, so that the fluid in the annular layer becomes more viscous than the fluid in the thread, tends to decrease the growth rate of disturbances. In the second part of the paper, the basic stagnation-point-type flow at arbitrary Reynolds number is computed using a numerical method on the assumption that the interface is a circular cylinder at all times. During the motion, either the thread radius tends to increase and the thickness of the annular layer decreases, or else the thread tends to thin and the thickness of the annular layer increases, depending upon the initial conditions and the parameter values. For a judicious choice of initial condition, a time-periodic exact solution of the Navier–Stokes equations is identified.

Item Type: | Article |
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Faculty \ School: | Faculty of Science > School of Mathematics |

UEA Research Groups: | Faculty of Science > Research Groups > Fluid and Solid Mechanics |

Depositing User: | Vishal Gautam |

Date Deposited: | 18 Mar 2011 10:11 |

Last Modified: | 06 Jan 2023 10:32 |

URI: | https://ueaeprints.uea.ac.uk/id/eprint/19824 |

DOI: | 10.1007/s10665-008-9253-z |

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