000211146 001__ 211146
000211146 005__ 20190812205846.0
000211146 037__ $$aCONF
000211146 245__ $$aFinite Volume Particle Method for Fluid-Structure Interaction
000211146 269__ $$a2015
000211146 260__ $$c2015
000211146 336__ $$aConference Papers
000211146 520__ $$aWe have recently developed a conservative finite volume particle method (FVPM) that can efficiently model 2-D and 3-D fluid flow with free-surfaces and complex geometries. Tn this paper we present an extension of the method to fluid-structure interaction. A new boundary condition enforcement is presented in which the hydrodynamic forces required in solid equations are computed directly. For validation, we study the 2-D motion of fluid through an elastic gate and compare the displacement of the gate with experimental and numerical data. We observe a very good agreement between FVPM and other numerical and experimental data.
000211146 700__ $$g196478$$aJahanbakhsh, Ebrahim$$0243107
000211146 700__ $$g170539$$aVessaz, Christian$$0244465
000211146 700__ $$g254092$$aMaertens, Audrey$$0248870
000211146 700__ $$g104417$$aAvellan, François$$0241012
000211146 7112_ $$dJune 16-18 2015$$cParma, Italy$$a10th International SPHERIC Workshop
000211146 7112_ $$dJune 16-18, 2015$$cParma, Italy$$a10th International SPHERIC Workshop
000211146 773__ $$tProceedings of the 10th International SPHERIC Workshop
000211146 8564_ $$zPublisher's version$$yPublisher's version$$uhttps://infoscience.epfl.ch/record/211146/files/Finite%20Volume%20Particle%20Method%20for%20Fluid-Structure%20Interaction.pdf$$s3671420
000211146 8560_ $$febrahim.jahanbakhsh@epfl.ch
000211146 909C0 $$xU10309$$pLMH$$0252135
000211146 909CO $$ooai:infoscience.tind.io:211146$$qGLOBAL_SET$$pconf$$pSTI
000211146 917Z8 $$x254092
000211146 917Z8 $$x104417
000211146 917Z8 $$x104417
000211146 937__ $$aEPFL-CONF-211146
000211146 973__ $$rREVIEWED$$aEPFL
000211146 980__ $$aCONF