Peristaltic pumping is reduced by poroelastic confinement due to extra viscous losses and elastic energy storage, while permeability and slip create regimes of forward or reverse flow in the porous material.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Adapted theory and ALE simulations show excellent agreement in leading-order cycle-averaged pressure and deformation, plus good agreement at next order and nontrivial displacements, for small compliance numbers across Womersley and elastoviscous regimes in deformable rectangular channels.
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Peristaltic pumping under poroelastic confinement
Peristaltic pumping is reduced by poroelastic confinement due to extra viscous losses and elastic energy storage, while permeability and slip create regimes of forward or reverse flow in the porous material.
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Theory and simulation of elastoinertial rectification of oscillatory flows in two-dimensional deformable rectangular channels
Adapted theory and ALE simulations show excellent agreement in leading-order cycle-averaged pressure and deformation, plus good agreement at next order and nontrivial displacements, for small compliance numbers across Womersley and elastoviscous regimes in deformable rectangular channels.