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In this paper, the so-called added-mass effect is investigated from a different point of view of previous
publications. The monolithic fluid–structure problem is partitioned using a static condensation of the
velocity terms. Following this procedure the classical stabilized projection method for incompressible fluid
flows is introduced. The procedure allows obtaining a new pressure segregated scheme for fluid–structure
interaction problems, which has good convergent characteristics even for biomechanical application, where
the added-mass effect is strong. The procedure reveals its power when it is shown that the same projection
technique must be implemented in staggered FSI methods.
CitationIdelsohn, S. [et al.]. Fluid-structure interaction problems with strong added-mass effect. "International journal for numerical methods in engineering", Juliol 2009, vol. 80, núm. 10, p. 1261-1294.
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