Aims
Turbulence is one of the last remaining challenges in the
simulation of fluid flows. Although RANS (Reynolds-Averaged
Navier Stokes) turbulence models are still very widely used,
these approaches are being slowly supplanted by Large Eddy
Simulation (LES). However, LES is prohibitively expensive
for the industrial simulation of wall-bounded flows,
especially at high Reynolds number. As a result, a family of
Hybrid RANS-LES techniques, of which Detached Eddy
Simulation (DES) is one member, are being increasingly used
for the modelling of flow in and around complex geometries.
Due to the current lack of readily-available expert guidance
on the application of Hybrid RANS-LES techniques, and the
emergence of DES as the tool of the trade, ERCOFTAC has
drawn upon its worldwide network of academic and industrial
experts to provide a training course aimed at an industrial
CFD audience and relevant to a wide range of industry
sectors including: Aerospace, automotive, chemical and
process, civil and built environment, power generation and
the wider engineering community. Specifically, this course
aims to provide:
An overview of turbulence modelling.
A firm foundation in the theory and ideas underlying, RANS,
LES and Hybrid RANS-LES techniques.
Recommendation and guidance for the appropriate and
effective application of Hybrid RANS-LES. Examples from
real-world engineering simulations, using the DES class of
models.
Lecturers
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Prof Shia-Hui Peng, FOI, Stockholm, Sweden
Prof. Michael Strelets, University of St Petersburg, Russia
Dr. Florian Menter, Ansys, Germany
Dr Alistair Revell, Univ. Manchester, UK
Dr Tim Craft, Univ. Manchester, UK
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registration: richard.seoud-ieo@ercoftac.org
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http://www.ercoftac.org/events/hybridrans-les_methods_for_industrial_cfd_vi/
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