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- Title
Large-eddy simulations of the inlet grid-generated turbulence.
- Authors
Zhang Zhiwei; Wu Bo; Zhang Liangliang; Wang Yuanqing; Huang Longxian
- Abstract
In this paper, a new technique of turbulence generation in large eddy simulation (LES) is studied and verified. In order to generate turbulence similar to the wind tunnel test, the proposed grid inlet technique places the grid on the Inlet boundary to achieve the following effects: changing the grid size controls the turbulence integral length scale and changing the distance from inlet controls the turbulence intensity. The purpose of this paper is to explore the domain requirements of grid-inlet technology by studying the turbulence characteristics of three different grid inlets. In particular, this paper further studies the effects of domain sizes on the lateral correlation of fluctuating wind by arranging the transverse positions of monitoring points irregularly and in equal proportion. Meanwhile, the isotropic hypothesis of gird-generated turbulence is verified by power spectrum. The results show that the turbulence intensity is unaffected by the domain sizes, the larger calculation domain corresponds to the gentler changing trend of the lateral correlation of the fluctuating wind and the flow fields under the three different domain sizes basically satisfy the isotropic hypothesis. The above results are helpful for the further application of the grid inlet technique.
- Subjects
TURBULENCE; LARGE eddy simulation models; WIND tunnel testing; INLETS; POWER spectra
- Publication
Vibroengineering Procedia, 2020, Vol 30, p214
- ISSN
2345-0533
- Publication type
Article
- DOI
10.21595/vp.2020.21370