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Title: Different boundary conditions for LES solver Palm 6.0 used for ABL in tunnel experiment (English)
Author: Řezníček, Hynek
Author: Geletič, Jan
Author: Bureš, Martin
Author: Krč, Pavel
Author: Resler, Jaroslav
Author: Vrbová, Kateřina
Author: Trush, Arsenii
Author: Michálek, Petr
Author: Beneš, Luděk
Author: Sühring, Matthias
Language: English
Journal: Programs and Algorithms of Numerical Mathematics
Volume: Proceedings of Seminar. Jablonec nad Nisou, June 19-24, 2022
Issue: 2022
Year:
Pages: 209-218
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Category: math
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Summary: We tried to reproduce results measured in the wind tunnel experiment with a CFD simulation provided by numerical model PALM. A realistic buildings layout from the Prague-Dejvice quarter has been chosen as a testing domain because solid validation campaign for PALM simulation of Atmospheric Boundary Layer (ABL) over this quarter was documented in the past. The question of input data needed for such simulation and capability of the model to capture correctly the inlet profile and its turbulence structure provided by the wind-tunnel is discussed in the study. The PALM dynamical core contains a solver for the Navier-Stokes equations. By default, the model uses the Large Eddy Simulation (LES) approach in which the bulk of the turbulent motions is explicitly resolved. It is well validated tool for simulations of the complex air-flow within the real urban canopy and also within its reduced scale provided by wind tunnel experiments. However the computed flow field between the testing buildings did not correspond well to the measured wind velocity in some points. Different setting of the inlet boundary condition was tested but none of them gave completely developed turbulent flow generated by vortex generators and castellated barrier wall place at the entrance of the aerodynamic section of the wind tunnel. (English)
Keyword: large eddy simulation
Keyword: wind tunnel
Keyword: atmospheric boundary layer
Keyword: PALM model
Keyword: turbulence
MSC: 65Z05
MSC: 76F65
MSC: 86A10
DOI: 10.21136/panm.2022.19
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Date available: 2023-04-13T06:27:49Z
Last updated: 2023-06-05
Stable URL: http://hdl.handle.net/10338.dmlcz/703201
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