The energetics of flow through a rapidly oscillating tube. Part 1. General theory
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Publication:3573235
DOI10.1017/S0022112009992904zbMath1189.76133WikidataQ63516855 ScholiaQ63516855MaRDI QIDQ3573235
Matthias Heil, Robert J. Whittaker, Jonathan Boyle, Sarah L. Waters, Oliver E. Jensen
Publication date: 30 June 2010
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Navier-Stokes equations for incompressible viscous fluids (76D05) Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.) (74F10) Asymptotic methods, singular perturbations applied to problems in fluid mechanics (76M45)
Related Items (10)
Induced flow due to blowing and suction flow control: an analysis of transpiration ⋮ Stability and energy budget of pressure-driven collapsible channel flows ⋮ Local and global instabilities of flow in a flexible-walled channel ⋮ Predicting the onset of high-frequency self-excited oscillations in elastic-walled tubes ⋮ Divergence-driven oscillations in a flexible-channel flow with fixed upstream flux ⋮ Resonance-driven oscillations in a flexible-channel flow with fixed upstream flux and a long downstream rigid segment ⋮ Self-excited oscillations in three-dimensional collapsible tubes: simulating their onset and large-amplitude oscillations ⋮ Sloshing and slamming oscillations in a collapsible channel flow ⋮ The mathematical challenges and modelling of hydroelasticity ⋮ The energetics of flow through a rapidly oscillating tube with slowly varying amplitude
Cites Work
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- Transient disturbance growth in a corrugated channel
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- Computational studies of resonance wave pumping in compliant tubes
- Stability of flow in a channel with vibrating walls
- FLOW THROUGH CONSTRICTED OR DILATED PIPES AND CHANNELS: PART 1
- FLOW THROUGH CONSTRICTED OR DILATED PIPES AND CHANNELS: PART 2
- Vortex instability in a divergingconverging channel
- High-frequency self-excited oscillations in a collapsible-channel flow
- A numerical simulation of unsteady flow in a two-dimensional collapsible channel
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- An experimental investigation and a simple model of a valveless pump
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- On the resonance of a pliant tube as a mechanism for valveless pumping
- B<scp>IOFLUID</scp> M<scp>ECHANICS IN</scp> F<scp>LEXIBLE</scp> T<scp>UBES</scp>
- Instability of channel flow with oscillatory wall suction/blowing
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