Large-eddy simulation in a complex hill terrain enabled by a compact fractional step OpenFOAM registered solver

We report computational fluid dynamics (CFD) code developments using the high-level programming syntax of the open source C++ library OpenFOAM registered . CFD simulations utilizing the large-eddy simulation (LES) approach are carried out using the developed code in a real-world application. We inve...

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Bibliographic Details
Published in:Advances in engineering software (1992) 2015-01, Vol.79, p.70-80
Main Authors: Vuorinen, V, Chaudhari, A, Keskinen, J-P
Format: Article
Language:English
Subjects:
Computational fluid dynamics
Computer programs
Computer simulation
Large eddy simulation
Mathematical models
Navier-Stokes equations
Solvers
Source code
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Summary:We report computational fluid dynamics (CFD) code developments using the high-level programming syntax of the open source C++ library OpenFOAM registered . CFD simulations utilizing the large-eddy simulation (LES) approach are carried out using the developed code in a real-world application. We investigate wind flowing over the Bolund hill, Denmark. In the present configuration a west-east wind meets the steep west side of the hill. Such conditions lead to flow separation at the location of a sharp cliff. A full scale simulation, with a simulation duration of over one month, is carried out on a supercomputer. Physically, about 45min of real time is simulated in the LES enabling the statistical averaging of the results. The novelty of the paper consists of the following features: (1) we report validation results of the newly developed LES code for the Bolund hill case, (2) we show the high-level LES solver code in its entirety in a few tens of code lines which promotes transparency in CFD-code development in the OpenFOAM registered environment, (3) the study is the first study to use LES in pointing out the complex 3d characteristics of the Bolund hill case with the computationally challenging west-east (270 degree ) wind direction, and (4) based on the comparison with previous experimental data, and Reynolds averaged Navier-Stokes (RANS) simulations, the present LES gives so far the best match for the turbulent kinetic energy increase at the considered measurement positions.
ISSN:0965-9978
DOI:10.1016/j.advengsoft.2014.09.008