On the numerical requirements of rans and hybrid turbulence models
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Inclou dades d'ús des de 2022
Cita com:
hdl:2117/332551
Tipus de documentText en actes de congrés
Data publicació2015
EditorCIMNE
Condicions d'accésAccés obert
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Abstract
The evaluation of different mathematical models for the prediction of tur-
bulent flows depends on the ability to reduce the numerical error to negligible
levels,
i.e. to values clearly below the modelling error. In this work we assess the
numerical requirements, i.e. grid/time refinement, iterative and statistical convergence
levels, to achieve such goal for three different mathematical models: Reynolds-Averaged
Navier- Stokes (RANS) equations supplemented by an eddy-viscosity model; Delayed Detached
Eddy Simulation (DDES) and eXtra Large Eddy Simulation (XLES). To this end, numer- ical
simulations are performed with RANS and the two hybrid models (blend of RANS and LES)
for the flow around a circular cylinder at a Reynolds number of 3900. The results
show that the grid/time refinement and iterative and statistical (for DDES and XLES)
convergence levels required to achieve such goal are clearly more demanding than those usually
found in the open literature, especially for the two models that simulate directly the
large scales of turbulence, DDES and XLES. Nonetheless, the comparison of mean flow quantities
with available experimental data suggests that the hybrid models
reduce the modelling error when compared to RANS.
CitacióPereira, F.S.; Vaz, G.; Eça, L. On the numerical requirements of rans and hybrid turbulence models. A: MARINE VI. "MARINE VI : proceedings of the VI International Conference on Computational Methods in Marine Engineering". CIMNE, 2015, p. 886-902. ISBN 978-84-943928-6-3.
ISBN978-84-943928-6-3
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