A Modular, Operator Splitting Scheme for Fluid- Structure Interaction Problems with Thick Structures (CROSBI ID 200393)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Bukač, Martina ; Čanić, Sunčica ; Glowinski, Roland ; Muha, Boris ; Quaini, Annalisa
engleski
A Modular, Operator Splitting Scheme for Fluid- Structure Interaction Problems with Thick Structures
We present an operator-splitting scheme for fluid- structure interaction (FSI) problems in hemodynamics, where the thickness of the structural wall is comparable to the radius of the cylindrical fluid domain. The equations of linear elasticity are used to model the structure, while the Navier-Stokes equations for an incompressible viscous fluid are used to model the fluid. The operator splitting scheme, based on Lie splitting, separates the elastodynamics structure problem, from a fluid problem in which structure inertia is included to achieve unconditional stability. We prove energy estimates associated with unconditional stability of this modular scheme for the full nonlinear FSI problem defined on a moving domain, without requiring any sub- iterations within time steps. Two numerical examples are presented, showing excellent agreement with the results of monolithic schemes. First-order convergence in time is shown numerically. Modularity, unconditional stability without temporal sub-iterations, and simple implementation are the features that make this operator-splitting scheme particularly appealing for multi-physics problems involving fluid- structure interaction.
Fluid-structure interaction; thick structure; operator-splitting scheme; blood flow
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Podaci o izdanju
74 (8)
2014.
577-604
objavljeno
0271-2091
10.1002/fld.3863