ON MODELLING THE TRANSITION TO TURBULENCE IN PIPE FLOW-Reference-Cited by-同舟云学术

ON MODELLING THE TRANSITION TO TURBULENCE IN PIPE FLOW

Published:2017-07 Issue:1 Volume:59 Page:1-34
ISSN:1446-1811
Container-title:The ANZIAM Journal
language:en
Short-container-title:ANZIAM J.

Author:

FORBES LAWRENCE K.,BRIDESON MICHAEL A.

Abstract

As a possible model for fluid turbulence, a Reiner–Rivlin-type equation is used to study Poiseuille–Couette flow of a viscous fluid in a rotating cylindrical pipe. The equations of motion are derived in cylindrical coordinates, and small-amplitude perturbations are considered in full generality, involving all three velocity components. A new matrix-based numerical technique is proposed for the linearized problem, from which the stability is determined using a generalized eigenvalue approach. New results are obtained in this cylindrical geometry, which confirm and generalize the predictions of previous recent studies. A possible mechanism for the transition to turbulent flow is discussed.

Publisher

Cambridge University Press (CUP)

Subject

Mathematics (miscellaneous)

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