Vorliegende Sprache |
eng |
ISBN |
978-3-030-62047-9 |
978-3-030-62049-3 |
978-3-030-62050-9 |
Name |
Hirsch, Charles ¬[HerausgeberIn]¬ |
Hillewaert, Koen ¬[HerausgeberIn]¬ |
Name ANZEIGE DER KETTE |
Hillewaert, Koen ¬[HerausgeberIn]¬ |
Name |
Hartmann, Ralf ¬[HerausgeberIn]¬ |
Couaillier, Vincent ¬[HerausgeberIn]¬ |
Boussuge, Jean-Francois ¬[HerausgeberIn]¬ |
Chalot, Frederic ¬[HerausgeberIn]¬ |
Bosniakov, Sergey ¬[HerausgeberIn]¬ |
Haase, Werner ¬[HerausgeberIn]¬ |
T I T E L |
TILDA: Towards Industrial LES/DNS in Aeronautics |
Zusatz zum Titel |
Paving the Way for Future Accurate CFD - Results of the H2020 Research Project TILDA, Funded by the European Union, 2015 -2018 |
Auflage |
1st ed. 2021. |
Verlagsort |
Cham |
Cham |
Verlag |
Springer International Publishing |
Imprint: Springer |
Erscheinungsjahr |
2021 |
2021 |
2021 |
Umfang |
1 Online-Ressource(IX, 550 p. 344 illus., 273 illus. in color.) |
Reihe |
Notes on Numerical Fluid Mechanics and Multidisciplinary Design ; 148 |
Titelhinweis |
Erscheint auch als (Druck-Ausgabe)ISBN: 978-3-030-62047-9 |
Erscheint auch als (Druck-Ausgabe)ISBN: 978-3-030-62049-3 |
Erscheint auch als (Druck-Ausgabe)ISBN: 978-3-030-62050-9 |
ISBN |
ISBN 978-3-030-62048-6 |
Klassifikation |
TGMF |
TEC009070 |
620.1064 |
Kurzbeschreibung |
The TILDA Project - Objectives, Project and Activities -- Implicit methods -- Multi-level approach -- Space Adaptive Methods/Meshing -- Wall-modelled LES -- Quality Measures for Curvilinear Finite Elements -- Parallelisation to Several Tens-of-thousands of cores -- I/O post- and Co-processing for High-order Methods -- Implementation of High Order Discontinuous Galerkin Method and its Verification using Taylor-Green Vortex and Periodic Hills Test Cases -- Large Eddy Simulation of single stream jet using High-order methods -- Boeing Rudimentary Landing Gear Configurations -- Generic Falcon Business Jet in Landing Configuration -- Detached-Eddy Simulation of Dual Stream Nozzle Jet Using High Order Discontinuous Galerkin Method. |
2. Kurzbeschreibung |
This book offers detailed insights into new methods for high-fidelity CFD, and their industrially relevant applications in aeronautics. It reports on the H2020 TILDA project, funded by the European Union in 2015-2018. The respective chapters demonstrate the potential of high-order methods for enabling more accurate predictions of non-linear, unsteady flows, ensuring enhanced reliability in CFD predictions. The book highlights industrially relevant findings and representative test cases on the development of high-order methods for unsteady turbulence simulations on unstructured grids; on the development of the LES/DNS methodology by means of multilevel, adaptive, fractal and similar approaches for applications on unstructured grids; and on leveraging existent large-scale HPC networks to facilitate the industrial applications of LES/DNS in daily practice. Furthermore, the book discusses multidisciplinary applications of high-order methods in the area of aero-acoustics. All in all, it offers timely insights into the application and performance of high-order methods for CFD, and an extensive reference guide for researchers, graduate students, and industrial engineers whose work involves CFD and turbulence modeling. . |
SWB-Titel-Idn |
1761808826 |
Signatur |
Springer E-Book |
Bemerkungen |
Elektronischer Volltext - Campuslizenz |
Elektronische Adresse |
$uhttps://doi.org/10.1007/978-3-030-62048-6 |
Internetseite / Link |
Resolving-System |