2017
DOI: 10.1017/jfm.2017.404
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Instabilities in flexible channel flow with large external pressure

Abstract: We examine the stability of laminar high-Reynolds-number flow through an asymmetric flexible-walled channel driven by a fixed upstream flux and subject to a (large) uniform external pressure. We construct a long wavelength, spatially one-dimensional model using a flow profile assumption, modelling the flexible wall as a thin tensioned membrane subject to a large axial pre-stress. We numerically construct the non-uniform static shape of the flexible wall and consider its stability using both a global eigensolve… Show more

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Cited by 13 publications
(65 citation statements)
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“…Comprehensive literature reviews are available elsewhere [13,18]. Of most pertinent interest to the present study are long-wavelength models for flow through collapsible channels with prescribed inlet flux, where the wall elasticity takes the form of an axial membrane tension [40,[49][50][51]. These models are similar in spirit to our previous model for the onset of RVp [42], albeit with only one compliant compartment rather than two.…”
Section: Introductionmentioning
confidence: 92%
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“…Comprehensive literature reviews are available elsewhere [13,18]. Of most pertinent interest to the present study are long-wavelength models for flow through collapsible channels with prescribed inlet flux, where the wall elasticity takes the form of an axial membrane tension [40,[49][50][51]. These models are similar in spirit to our previous model for the onset of RVp [42], albeit with only one compliant compartment rather than two.…”
Section: Introductionmentioning
confidence: 92%
“…The flow of blood was modelled using the incompressible Navier-Stokes equations, while the elastic portions of the channel wall were modelled as a tensioned membrane with an elastic pre-stress. Similar to many previous studies of flow in collapsible vessels [40,49], the flow was simplified using a long-wavelength approximation with a flow profile assumption. The ICP and IOP were chosen to be prescribed functions of time with simple oscillatory profiles.…”
Section: Introductionmentioning
confidence: 99%
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“…The next level of modelling is the onedimensional approach (Cancelli and Pedley 1985;Jensen 1990Jensen , 1992Shapiro 1977), which enabled wave propagation to be included in the system, leading to the "choking" mechanism. Indeed, some of these one-dimensional models are extremely useful in explaining some system mechanisms (Stewart et al 2010;Stewart 2017). A more rational two-dimensional fluid-membrane model was developed by Pedley and coworkers, in which the collapsible tube is represented by a channel with part of the upper wall replaced by a thin and inextensible membrane (Pedley and Luo 1998;Lowe and Pedley 1995;Pedley 1996, 2000).…”
Section: Introductionmentioning
confidence: 99%