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Applications of high-resolution schemes based on normalized variable formulation for 3D indoor airflow simulations

Computational fluid dynamics (CFD) has been used in a routine manner for the design of indoor environments. The quality of these CFD studies varies from poor to excellent, and only in year 2003 S�rensen and Nielsen recommend a detailed guideline on imposing quality control in the CFD-related works f...

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Main Authors: Ng K.C., Ng E.Y.K., Yusoff M.Z., Lim T.K.
Other Authors: 55310814500
Format: Article
Published: 2023
Subjects:
CFD
Differencing scheme
Indoor airflow
Normalized variable formulation (NVF)
Turbulence model
Air
Computational fluid dynamics
Computer simulation
Flow of fluids
Mathematical models
Turbulent flow
Ventilation
Indoor airflow simulations
Normalized variable formulation
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id my.uniten.dspace-30998
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spelling my.uniten.dspace-309982023-12-29T15:57:36Z Applications of high-resolution schemes based on normalized variable formulation for 3D indoor airflow simulations Ng K.C. Ng E.Y.K. Yusoff M.Z. Lim T.K. 55310814500 7201647536 7003976733 23668285700 CFD Differencing scheme Indoor airflow Normalized variable formulation (NVF) Turbulence model Air Computational fluid dynamics Computer simulation Flow of fluids Mathematical models Turbulent flow Ventilation Air Computational fluid dynamics Computer simulation Flow of fluids Mathematical models Turbulent flow Indoor airflow simulations Normalized variable formulation Ventilation Computational fluid dynamics (CFD) has been used in a routine manner for the design of indoor environments. The quality of these CFD studies varies from poor to excellent, and only in year 2003 S�rensen and Nielsen recommend a detailed guideline on imposing quality control in the CFD-related works for indoor airflow simulations. One of these recommendations is to use monotone high-resolution (HR) schemes that apply flux limiters to ensure solution boundedness while preserving the high-order accuracy of the differencing schemes. In this paper, based on the ?-formulations derived from the normalized variable formulation, four recently developed HR schemes, GAMMA, CUBISTA, AVLSMART and HOAB, are applied to several indoor airflow problems such as (1) Smith-Hutton problem (dead-end channel); (2) forced convection problem (horizontal/oblique inflow) in a parallelepiped room; (3) mixing ventilation problem focusing on the prediction of local mean age of air; (4) flow in a two-room chamber with internal partition and (5) displacement ventilation in a mockup office. Based on the flow results, the aspects of accuracy and robustness of these HR schemes are addressed for appropriate selection of an 'ideal' differencing scheme to improve the quality of 3D indoor CFD calculations. Copyright � 2007 John Wiley & Sons, Ltd. Final 2023-12-29T07:57:35Z 2023-12-29T07:57:35Z 2008 Article 10.1002/nme.2106 2-s2.0-39749180457 https://www.scopus.com/inward/record.uri?eid=2-s2.0-39749180457&doi=10.1002%2fnme.2106&partnerID=40&md5=804cfd8fe0ecd9e10139e711d267e858 https://irepository.uniten.edu.my/handle/123456789/30998 73 7 948 981 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic CFD
Differencing scheme
Indoor airflow
Normalized variable formulation (NVF)
Turbulence model
Air
Computational fluid dynamics
Computer simulation
Flow of fluids
Mathematical models
Turbulent flow
Ventilation
Air
Computational fluid dynamics
Computer simulation
Flow of fluids
Mathematical models
Turbulent flow
Indoor airflow simulations
Normalized variable formulation
Ventilation
spellingShingle CFD
Differencing scheme
Indoor airflow
Normalized variable formulation (NVF)
Turbulence model
Air
Computational fluid dynamics
Computer simulation
Flow of fluids
Mathematical models
Turbulent flow
Ventilation
Air
Computational fluid dynamics
Computer simulation
Flow of fluids
Mathematical models
Turbulent flow
Indoor airflow simulations
Normalized variable formulation
Ventilation
Ng K.C.
Ng E.Y.K.
Yusoff M.Z.
Lim T.K.
Applications of high-resolution schemes based on normalized variable formulation for 3D indoor airflow simulations
description Computational fluid dynamics (CFD) has been used in a routine manner for the design of indoor environments. The quality of these CFD studies varies from poor to excellent, and only in year 2003 S�rensen and Nielsen recommend a detailed guideline on imposing quality control in the CFD-related works for indoor airflow simulations. One of these recommendations is to use monotone high-resolution (HR) schemes that apply flux limiters to ensure solution boundedness while preserving the high-order accuracy of the differencing schemes. In this paper, based on the ?-formulations derived from the normalized variable formulation, four recently developed HR schemes, GAMMA, CUBISTA, AVLSMART and HOAB, are applied to several indoor airflow problems such as (1) Smith-Hutton problem (dead-end channel); (2) forced convection problem (horizontal/oblique inflow) in a parallelepiped room; (3) mixing ventilation problem focusing on the prediction of local mean age of air; (4) flow in a two-room chamber with internal partition and (5) displacement ventilation in a mockup office. Based on the flow results, the aspects of accuracy and robustness of these HR schemes are addressed for appropriate selection of an 'ideal' differencing scheme to improve the quality of 3D indoor CFD calculations. Copyright � 2007 John Wiley & Sons, Ltd.
author2 55310814500
author_facet 55310814500
Ng K.C.
Ng E.Y.K.
Yusoff M.Z.
Lim T.K.
format Article
author Ng K.C.
Ng E.Y.K.
Yusoff M.Z.
Lim T.K.
author_sort Ng K.C.
title Applications of high-resolution schemes based on normalized variable formulation for 3D indoor airflow simulations
title_short Applications of high-resolution schemes based on normalized variable formulation for 3D indoor airflow simulations
title_full Applications of high-resolution schemes based on normalized variable formulation for 3D indoor airflow simulations
title_fullStr Applications of high-resolution schemes based on normalized variable formulation for 3D indoor airflow simulations
title_full_unstemmed Applications of high-resolution schemes based on normalized variable formulation for 3D indoor airflow simulations
title_sort applications of high-resolution schemes based on normalized variable formulation for 3d indoor airflow simulations
publishDate 2023
_version_ 1806427679952470016
score 13.188404

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