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Authors:
Di Fabbio, Tony; Rajkumar, Karthick; Tangermann, Eike; Klein, Markus 
Document type:
Zeitschriftenartikel / Journal Article 
Title:
Towards the understanding of vortex breakdown for improved RANS turbulence modeling 
Journal:
Aerospace Science and Technology 
Year:
2024 
Pages from - to:
108973 
Language:
Englisch 
Keywords:
Leading-edge vortex ; Vortex breakdown ; Turbulence modeling ; Reynolds stress tensor ; Boussinesq assumption ; Turbulence kinetic energy 
Abstract:
A triple-delta wing configuration in transonic conditions has been investigated numerically, explicitly focusing on the leading-edge vortices during sideslip flow. Several shock waves manifest over the fuselage, leading to vortex-shock interactions. The primary focus of the analysis centers on the vortex breakdown phenomenon and its underlying causes. The flow field obtained from different turbulence modeling approaches is compared. This study aims to identify the limitations of a standard one-e...    »
 
ISSN:
1270-9638 ; 1626-3219 
Article ID:
108973 
Department:
Fakultät für Luft- und Raumfahrttechnik 
Institute:
LRT 1 - Institut für Angewandte Mathematik und Wissenschaftliches Rechnen 
Chair:
Klein, Markus 
Open Access yes or no?:
Ja / Yes 
Type of OA license:
CC-BY 
Miscellaneous:
Voraufnahme ; Die Veröffentlichung wurde finanziell unterstützt durch die Universität der Bundeswehr München (Publish-and-Read-Vertrag).