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The energetics of flow through a rapidly oscillating tube. Part 2. Application to an elliptical tube

Abstract:
In Part 1 of this work, we derived general asymptotic results for the three-dimensional flow field and energy fluxes for flow within a tube whose walls perform prescribed small-amplitude periodic oscillations of high frequency and large axial wavelength. In the current paper, we illustrate how these results can be applied to the case of flow through a finite-length axially non-uniform tube of elliptical cross-section-a model of flow in a Starling resistor. The results of numerical simulations for three model problems (an axially uniform tube under pressure-flux and pressure-pressure boundary conditions and an axially non-uniform tube with prescribed flux) with prescribed wall motion are compared with the theoretical predictions made in Part 1, each showing excellent agreement. When upstream and downstream pressures are prescribed, we show how the mean flux adjusts slowly under the action of Reynolds stresses using a multiple-scale analysis. We test the asymptotic expressions obtained for the mean energy transfer E from the flow to the wall over a period of the motion. In particular, the critical point at which E = 0 is predicted accurately: this point corresponds to energetically neutral oscillations, the condition which is relevant to the onset of global instability in the Starling resistor. © 2010 Cambridge University Press.
Publication status:
Published

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Publisher copy:
10.1017/S0022112009992916

Authors

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Institution:
University of Oxford
Division:
MPLS
Department:
Mathematical Institute
Role:
Author


Journal:
JOURNAL OF FLUID MECHANICS More from this journal
Volume:
648
Pages:
123-153
Publication date:
2010-04-10
DOI:
EISSN:
1469-7645
ISSN:
0022-1120


Language:
English
Pubs id:
pubs:54817
UUID:
uuid:f76701f6-73fa-4724-a377-1a9093e1d717
Local pid:
pubs:54817
Source identifiers:
54817
Deposit date:
2012-12-19
ARK identifier:

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