Feasibility of Computational Fluid Dynamics for Analyzing Airflow Around Porous Fences

Feasibility of Computational Fluid Dynamics for Analyzing Airflow Around Porous Fences

This article presents using the computational fluid dynamics (CFD) modeling to analyze the flow around porous fences. The feasibility of applying 2D and 3D models was assessed with respect to corresponding wind tunnel experiments. Comparisons between the flow structures on leeward of the fence as pr...

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Bibliographic Details
Published in:Heat transfer engineering Vol. 41; no. 6-7; pp. 497 - 512
Main Authors: Xu, Yizhong, Calay, Rajnish K., Mustafa, Mohamad Y.
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 11-04-2020
Taylor & Francis Ltd
Taylor&Francis Group
Subjects:
Aerodynamics
Air flow
Computational fluid dynamics
Feasibility
Fences
Flow characteristics
Fluid dynamics
Fluid flow
Machinery energy and environmental technology: 573
Maskinfag: 570
Maskinteknisk energi- og miljøteknologi: 573
Mathematical models
Mechanical engineering: 570
Technology: 500
Teknologi: 500
Three dimensional models
Two dimensional models
VDP
Wind tunnel testing
Wind tunnels
Online Access:Get full text
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Summary:This article presents using the computational fluid dynamics (CFD) modeling to analyze the flow around porous fences. The feasibility of applying 2D and 3D models was assessed with respect to corresponding wind tunnel experiments. Comparisons between the flow structures on leeward of the fence as predicted by CFD models and the wind tunnel measurements were discussed. Velocity values for the two modeling approaches were in good agreement. However, there is a noticeable discrepancy in predicting the turbulence structure. Both 2Dand 3D model have demonstrated the capability to predict flow characteristics necessary for the design of porous fences. However, the selection between 2D and 3D model is dependent on, design stage, and the extent of accuracy required by the application. The presented CFD models are potentially applicable to heat transfer issues.
Bibliography:Heat Transfer Engineering
ISSN:0145-7632
1521-0537
1521-0537
DOI:10.1080/01457632.2018.1546663