The DVH model: ous flows around five different bodies at RE=10,000

Rossi, Emanuele; Colagrossi, Andrea; Le Touzé, David

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Rossi, Emanuele

Colagrossi, Andrea

Le Touzé, David

Document typeConference report

Defense date2017

PublisherCIMNE

Rights accessOpen Access

Abstract

The Diffused Vortex Hydrodynamic (DVH) is a meshless 2D Lagrangian incompressible Particle Vortex Method. In this study the DVH will be applied to simulate viscous flows around five different bodies at Re=10,000. In order to show how the DVH method works, simulations about five different geometries will be discussed: (i) a cylinder with circular section, (ii) a cylinder with squared section, (iii) a narrow elliptical profile, (iv) a thick elliptical profile and (v) a NACA0010 profile. All the five considered geometries develop a complex vortical wake and, moreover, the last three profiles, having a 30 degrees angle of attack, give rise to flow separation on the suction side.

CitationRossi, E.; Colagrossi, A.; Le Touzé, D. The DVH model: ous flows around five different bodies at RE=10,000. A: MARINE VI. "MARINE VI : proceedings of the VI International Conference on Computational Methods in Marine Engineering". CIMNE, 2017, p. 278-289. ISBN 978-84-943928-6-3.

URIhttp://hdl.handle.net/2117/331053

ISBN978-84-943928-6-3

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International Conference on Computational Methods in Marine Engineering - MARINE - VII International Conference on Computational Methods in Marine Engineering (MARINE 2017) Nantes, France, 15-17 May, 2017 [92]

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