Extended finite element method for fluid‐structure interaction in wave membrane blood pump
Volume: 37, Issue: 7
Published: May 4, 2021
Abstract
Numerical simulations of cardiac blood pump systems are integral to the optimization of device design, hydraulic performance and hemocompatibility. In wave membrane blood pumps, blood propulsion arises from the wave propagation along an oscillating immersed membrane, which generates small pockets of fluid that are pushed towards the outlet against an adverse pressure gradient. We studied the Fluid–Structure Interaction between the oscillating...
Paper Details
Title
Extended finite element method for fluid‐structure interaction in wave membrane blood pump
Published Date
May 4, 2021
Volume
37
Issue
7
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