Naslov
Self-Consistent Effective Equations Modeling Blood Flow in Medium-to-Large Compliant Arteries

Autori
Čanić, Sunčica ; Mikelić, Andro ; Lamponi Daniele ; Tambača, Josip

Izvornik
Multiscale modeling & simulation (1540-3459) 3 (2005), 3; 559-596

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
fluid-structure interaction; incompressible Newton fluid; linear elastic membrane; effective model

Sažetak
We study the flow of an incompressible viscous fluid through a long tube with compliant walls. The flow is governed by a given time dependent pressure head difference. The Navier-Stokes equations for an incompressible viscous fluid are used to model the flow, and the Navier equations for a curved, linearly elastic membrane to model the wall. Employing the asymptotic techniques typically used in thin domains, we derive a set of effective equations that hold in medium-to-large compliant vessels for laminar flow regimes. The main novelty is the derivation of the effective equations that do not assume any {; ; ; \sl ad hoc}; ; ; closure, typically assumed in the derivation of one-dimensional models. Using ideas from homogenization theory for porous media flows, we obtain a closed system of effective equations that are of Biot type with memory. Memory accounts for the wave-like phenomena in the problem. Although the equations are two-dimensional, their simple structure enables a design of a numerical algorithm that has complexity of a one-dimensional solver. Our numerical simulations show that our model captures two-dimensional effects that cannot be captured using standard one-dimensional methods.

Izvorni jezik
Engleski

Znanstvena područja
Matematika

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