Browsing by Author "Mehl, Miriam"
Now showing items 1-6 of 6
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A comparison of various quasi-newton schemes for partitioned fluid-structure interaction
Lindner, Florian; Mehl, Miriam; Scheufele, Klaudius; Uekérmann, Benjamin (CIMNE, 2015)
Conference report
Open AccessDuring the last 5 years, quasi-Newton schemes have proven to be a robust and efficient way to couple partitioned fluid-structure interaction. We showed in previous work that they also allow to perform a parallel coupling. ... -
A GPU Accelerated Framework for Partitioned Solution of Fluid-Structure Interaction Problems
Totounferoush, Amin; Naseri, Alireza; Chiva Segura, Jorge; Oliva Llena, Asensio; Mehl, Miriam (2021)
Conference report
Open AccessWe present a GPU-accelerated solver for the partitioned solution of fluid-structure interaction (FSI) problems. Independent scalable fluid and structure solvers are coupled by a library which handles the inter-code data ... -
A parallel, black-box coupling algorithm for fluid-structure interaction
Uekermann, Benjamin; Bungartz, Hans-Joachim; Gatzhammer, Bernhard; Mehl, Miriam (CIMNE, 2013)
Conference report
Open AccessThe simulation of multi-physics scenarios, in particular fluid-structure interaction has gained more and more importance in the last years due to increasing accuracy requirements for a large range of applications from ... -
A scalable framework for the partitioned solution of fluid-structure interaction problems
Naseri, Alireza; Totounferoush, Amin; González Acedo, Ignacio; Mehl, Miriam; Pérez Segarra, Carlos David (Springer, 2020-08)
Article
Open AccessIn this work, we present a scalable and efficient parallel solver for the partitioned solution of fluid–structure interaction problems through multi-code coupling. Two instances of an in-house parallel software, TermoFluids, ... -
Radial basis function interpolation for black-box multi-physics simulations
Lindner, Florian; Mehl, Miriam; Uekermann, Benjamin (CIMNE, 2017)
Conference report
Open AccessInterpolation based on radial basis functions (RBF) is a standard data map- ping method used in multi-physics coupling. It works on scattered data without requiring additional mesh topology or neighborhood information ... -
Simulating the interaction of electrostatically charged particles in the inflow area of cabin air filters using a fully coupled system
Schober, Carolin; Keerl, David; Lehmann, Martin; Mehl, Miriam (CIMNE, 2017)
Conference report
Open AccessPrecise simulations of particulate flow through fibrous filters are essential in order to predict and enhance filtration performances. To run the computation in reasonable time, a continuum approach is commonly used to emulate ...