Title: Effect of wall roughness seen by particles in turbulent channel and pipe flows
Authors: Breuer, Michael  
Alletto, Michael 
Language: en_US
Subject (DDC): DDC - Dewey Decimal Classification::000 Informatik, Wissen, Systeme
DDC - Dewey Decimal Classification::500 Naturwissenschaften
DDC - Dewey Decimal Classification::600 Technik
Issue Date: 2013
Editors: Nagel, Wolfgang E.
Kröner, Dietmar H.
Resch, Michael M.
Publisher: Springer
Document Type: Book Part
Source: In: High Performance Computing in Science and Engineering 12 / Nagel, Wolfgang E.. - Berlin : Springer, 2013 . - 2013, Seite 277-294
Page Start: 277
Page End: 294
Publisher Place: Berlin
© Springer-Verlag Berlin Heidelberg 2013. In the present contribution it is shown in the context of large-eddy simulation (LES) and a Lagrangian treatment of the disperse phase that it is possible to considerably improve the particle statistics in turbulent channel and pipe flows by adopting a recently published wall roughness model for the solid phase. First, the model presented by Breuer et al. (Int J Multiphase Flow 43:157-175, 2012) is evaluated by means of the experiments conducted for a turbulent channel flow by Kussin (Experimentelle Studien zur Partikelbewegung und Turbulenzmodifikation in einem horizontalen Kanal bei unterschiedlichenWandrauhigkeiten. Ph.D. thesis, Martin-Luther-Universität Halle-Wittenberg, Germany, 2004) and Kussin and Sommerfeld (Exp Fluids 33:143-159, 2002). As a second test case the experiments of Bor`ee and Caraman (Phys Fluids 17:055108-1-055108-9, 2005) carried out for a turbulent pipe flow were used. For both setups involving rough walls good agreement between experiment and simulation is achieved by considering the effect of the wall roughness on the particle motion. Especially the latter configuration is the precondition for an improved simulation of the complex particle-laden turbulent flow in a combustion chamber reported in the last issue (Breuer and Alletto, High Performance Computing in Science and Engineering ’11. Springer, Berlin/Heidelberg, 2012) and in Alletto and Breuer (Int J Multiphase Flow 45: 70-90, 2012) and Breuer and Alletto (Int J Heat Fluid Flow 35:2-12, 2012).
Organization Units (connected with the publication): Strömungsmechanik 
URL: https://api.elsevier.com/content/abstract/scopus_id/84948068737
ISBN: 9783642333743
DOI: 10.1007/978-3-642-33374-3
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