Numerical modeling of air distribution in a test room with 2D sidewall jet. Part 1: foundations for eddy resolving approach application based on periodical formulation

Numerical modeling of air distribution in a test room with 2D sidewall jet. Part 1: foundations for eddy resolving approach application based on periodical formulation

The paper presents the methods and results of numerical modeling of turbulent airflow in a test room based on the vortex-resolving wall-modeled large eddy simulation approach. The room ventilation is provided by a plain air jet at Re = 5233. The jet is supplied from a slit placed at a side wall unde...

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Bibliographic Details
Main Authors: Zasimova Marina, Ivanov Nikolay, Markov Detelin
Format: Article
Language:English
Published: Peter the Great St.Petersburg Polytechnic University 2020-09-01
Series:St. Petersburg Polytechnical University Journal: Physics and Mathematics
Subjects:
turbulent airflow
plain jet
large eddy simulation
ventilation
Online Access:https://physmath.spbstu.ru/article/2020.49.05/
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spelling doaj-a79606240949472eafdf08bad12bc6232021-08-30T09:05:38ZengPeter the Great St.Petersburg Polytechnic UniversitySt. Petersburg Polytechnical University Journal: Physics and Mathematics2405-72232020-09-0113310.18721/JPM.1330520714726Numerical modeling of air distribution in a test room with 2D sidewall jet. Part 1: foundations for eddy resolving approach application based on periodical formulationZasimova Marina0Ivanov Nikolay1Markov Detelin2Peter the Great St. Petersburg Polytechnic UniversityPeter the Great St. Petersburg Polytechnic UniversityTechnical University of SofiaThe paper presents the methods and results of numerical modeling of turbulent airflow in a test room based on the vortex-resolving wall-modeled large eddy simulation approach. The room ventilation is provided by a plain air jet at Re = 5233. The jet is supplied from a slit placed at a side wall under the ceiling. The room geometry and airflow parameters correspond to the experimental benchmark test by Nielsen et al. (1978), but with the periodicity boundary conditions in the transverse direction. Calculations were carried out with the ANSYS Fluent software using fine grids consisting of up to 6x10^7 cells. The paper presents detailed analysis of parametric computations aimed at the evaluation of numerical simulation adequacy. In particular, the grid dependency study was performed and the Kolmogorov scale was estimated.https://physmath.spbstu.ru/article/2020.49.05/turbulent airflowplain jetlarge eddy simulationventilation
collection DOAJ
language English
format Article
sources DOAJ
author Zasimova Marina
Ivanov Nikolay
Markov Detelin
spellingShingle Zasimova Marina
Ivanov Nikolay
Markov Detelin
Numerical modeling of air distribution in a test room with 2D sidewall jet. Part 1: foundations for eddy resolving approach application based on periodical formulation
St. Petersburg Polytechnical University Journal: Physics and Mathematics
turbulent airflow
plain jet
large eddy simulation
ventilation
author_facet Zasimova Marina
Ivanov Nikolay
Markov Detelin
author_sort Zasimova Marina
title Numerical modeling of air distribution in a test room with 2D sidewall jet. Part 1: foundations for eddy resolving approach application based on periodical formulation
title_short Numerical modeling of air distribution in a test room with 2D sidewall jet. Part 1: foundations for eddy resolving approach application based on periodical formulation
title_full Numerical modeling of air distribution in a test room with 2D sidewall jet. Part 1: foundations for eddy resolving approach application based on periodical formulation
title_fullStr Numerical modeling of air distribution in a test room with 2D sidewall jet. Part 1: foundations for eddy resolving approach application based on periodical formulation
title_full_unstemmed Numerical modeling of air distribution in a test room with 2D sidewall jet. Part 1: foundations for eddy resolving approach application based on periodical formulation
title_sort numerical modeling of air distribution in a test room with 2d sidewall jet. part 1: foundations for eddy resolving approach application based on periodical formulation
publisher Peter the Great St.Petersburg Polytechnic University
series St. Petersburg Polytechnical University Journal: Physics and Mathematics
issn 2405-7223
publishDate 2020-09-01
description The paper presents the methods and results of numerical modeling of turbulent airflow in a test room based on the vortex-resolving wall-modeled large eddy simulation approach. The room ventilation is provided by a plain air jet at Re = 5233. The jet is supplied from a slit placed at a side wall under the ceiling. The room geometry and airflow parameters correspond to the experimental benchmark test by Nielsen et al. (1978), but with the periodicity boundary conditions in the transverse direction. Calculations were carried out with the ANSYS Fluent software using fine grids consisting of up to 6x10^7 cells. The paper presents detailed analysis of parametric computations aimed at the evaluation of numerical simulation adequacy. In particular, the grid dependency study was performed and the Kolmogorov scale was estimated.
topic turbulent airflow
plain jet
large eddy simulation
ventilation
url https://physmath.spbstu.ru/article/2020.49.05/
work_keys_str_mv AT zasimovamarina numericalmodelingofairdistributioninatestroomwith2dsidewalljetpart1foundationsforeddyresolvingapproachapplicationbasedonperiodicalformulation
AT ivanovnikolay numericalmodelingofairdistributioninatestroomwith2dsidewalljetpart1foundationsforeddyresolvingapproachapplicationbasedonperiodicalformulation
AT markovdetelin numericalmodelingofairdistributioninatestroomwith2dsidewalljetpart1foundationsforeddyresolvingapproachapplicationbasedonperiodicalformulation
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