Publication:
Fluid-structure interaction using a partitioned semi-implicit predictor-corrector coupling scheme for the application of large-eddy simulation

cris.customurl8927
cris.virtual.departmentStrömungsmechanik
cris.virtual.departmentStrömungsmechanik
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cris.virtual.departmentbrowseStrömungsmechanik
cris.virtual.departmentbrowseStrömungsmechanik
cris.virtual.departmentbrowseStrömungsmechanik
cris.virtual.departmentbrowseStrömungsmechanik
cris.virtual.departmentbrowseStrömungsmechanik
cris.virtual.departmentbrowseStrömungsmechanik
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cris.virtualsource.department6758246f-6106-494c-b0aa-fb96d0de1ce7
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dc.contributor.authorBreuer, Michael
dc.contributor.authorDe Nayer, Guillaume
dc.contributor.authorMünsch, Manuel
dc.contributor.authorGallinger, Thomas Gottfried
dc.contributor.authorWüchner, Roland
dc.date.issued2012-02
dc.description.abstractThe paper is concerned with an efficient partitioned coupling scheme developed for dynamic fluid-structure interaction problems in turbulent flows predicted by eddy-resolving schemes such as large-eddy simulation (LES). To account for the added-mass effect for high density ratios of the fluid to the structure, the semi-implicit scheme guarantees strong coupling among flow and structure, but also maintains the advantageous properties of explicit time-marching schemes often used for turbulence simulations. Thus by coupling an advanced LES code for the turbulent fluid flow with a code especially suited for the prediction of shells and membranes, an appropriate tool for the time-resolved prediction of instantaneous turbulent flows around light, thin-walled structures results. Based on an established benchmark case in laminar flow, i.e., the flow around a cylinder with an attached flexible structure at the backside, the entire methodology is analyzed thoroughly including a grid independence study. After this validation, the benchmark case is finally extended to the turbulent flow regime and predicted as a coupled FSI problem applying the newly developed scheme based on a predictor-corrector method. The entire methodology is found to be stable and robust. The turbulent flow field around the flexible structure and the deflection of the structure itself are analyzed in detail. © 2012 Elsevier Ltd.
dc.description.versionNA
dc.identifier.doi10.1016/j.jfluidstructs.2011.09.003
dc.identifier.issn0889-9746
dc.identifier.scopus2-s2.0-84857055333
dc.identifier.urihttps://openhsu.ub.hsu-hh.de/handle/10.24405/8927
dc.language.isoen
dc.publisherElsevier
dc.relation.journalJournal of Fluids and Structures
dc.relation.orgunitStrömungsmechanik
dc.rights.accessRightsmetadata only access
dc.titleFluid-structure interaction using a partitioned semi-implicit predictor-corrector coupling scheme for the application of large-eddy simulation
dc.typeResearch article
dcterms.bibliographicCitation.originalpublisherplaceOrlando, Fl
dspace.entity.typePublication
hsu.uniBibliography
oaire.citation.endPage130
oaire.citation.startPage107
oaire.citation.volume29
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