Application of the porous body model in the tasks of assessing the wind comfort of pedestrian zones

Authors

  • Oleg S. Goryachevsky National Research Moscow State University of Civil Engineering, Moscow https://orcid.org/0000-0001-8219-4598
  • Olga A. Yanushko National Research Moscow State University of Civil Engineering, Moscow

DOI:

https://doi.org/10.24866/2227-6858/2024-1/%25p

Keywords:

computational fluid dynamics, structural aerodynamics, immersed solid method, overset mesh

Abstract

The paper presents a verification case for the porous body model and a quasi-one-dimensional flow, implemented in Ansys CFX. A methodology for determining the porous body parameters through numerical modelling of a flow over a lattice in a channel is proposed and verified for a three-dimensional flow over a lattice barrier. The practical effectiveness of the methodology is demonstrated for the pedestrian comfort analysis of the "Aquatoria" residential complex in Moscow with the windproof structures accounted.

Author Biographies

  • Oleg S. Goryachevsky, National Research Moscow State University of Civil Engineering, Moscow

    Deputy Director of A.B. Zolotov Research and Education Center of Computer Modelling, National Research Moscow State University of Civil Engineering (Moscow, Russia)

  • Olga A. Yanushko, National Research Moscow State University of Civil Engineering, Moscow

    Engineer of A.B. Zolotov Research and Education Center of Computer Modelling, National Research Moscow State University of Civil Engineering (Moscow, Russia)

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Published

2024-03-29

Issue

No. 1(58) (2024)

Section

Construction Mechanics

License

Copyright (c) 2024 Far Eastern Federal University: School of Engineering Bulletin

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

1.
Application of the porous body model in the tasks of assessing the wind comfort of pedestrian zones. Вестник Инженерной школы ДВФУ [Internet]. 2024 Mar. 29 [cited 2024 May 19];1(1(58):122-35. Available from: https://journals.dvfu.ru/vis/article/view/823