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Research Article

Detailed numerical simulation of coupled heat transfer by conduction, natural convection and radiation through double honeycomb walls

Mohammed BoukendilAbdelhalim Abdelbaki( )Zaki Zrikem
LMFE, Department of Physics, Cadi Ayyad University, Faculty of Sciences Semlalia, B.P. 2390, Marrakesh, Morocco
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Abstract

The aim of the present work is to study numerically 2-D steady state coupled heat transfer by conduction, free convection and infra-red radiation through two honeycomb walls separated by a vertical air layer. Airflow in both holes and separating air layer is laminar. The limiting vertical sides of the double honeycomb wall are assumed to be isothermal but at different temperatures while the upper and lower horizontal surfaces of the structure are insulated. The FVM method and the SIMPLE algorithm are used to solve numerically the equations of conservation of mass, momentum and energy in both air filled cavities and solid partitions. It is found that the global heat flux across the entire wall varies almost linearly with the difference between the outside and the inside temperatures. Based on this linear thermal behaviour, appropriate overall heat exchange coefficients are derived. These coefficients can be used easily in practice to predict the global heat transfer across the studied honeycomb walls without solving the detailed and complex equations that govern the different heat transfer mechanisms. Effect of the thermal conductivity of the construction material on the overall heat transfer through double honeycomb walls is studied.

Keywords

natural convectionradiationconductiondouble honeycomb wallsvertical air layeroverall thermal conductance

References

 
A Abdelbaki, Z Zrikem (1999). Simulation numérique des transferts thermiques couplés à travers les parois alvéolaires des bâtiments. International Journal of Thermal Sciences, 38: 719-730. (in French)
Crossref Google Scholar
 
A Abdelbaki, Z Zrikem, F Haghighat (2001). Identification of empirical transfer function coefficients for a hollow tile based on detailed models of coupled heat transfers. Building and Environment, 36: 139-148.
Crossref Google Scholar
 
T Ait-Taleb, A Abdelbaki, Z Zrikem (2008a). Numerical simulation of coupled heat transfers by conduction, natural convection and radiation in hollow structures heated from below or above. International Journal of Thermal Sciences, 47: 378-387.
Crossref Google Scholar
 
T Ait-Taleb, A Abdelbaki, Z Zrikem (2008b). Transfer function coefficients for time varying coupled heat transfers in vertically heated hollow concrete bricks. Building Simulation, 1: 303-310.
Crossref Google Scholar
 
MM Al-Hazmy (2006). Analysis of coupled natural convection-conduction effects on the heat transport through hollow building blocks. Energy and Buildings, 38: 515-521.
Crossref Google Scholar
 
MA Antar (2010). Thermal radiation role in conjugate heat transfer across a multiple-cavity building block. Energy, 35: 3508-3516.
Crossref Google Scholar
 
M Boukendil, A Abdelbaki, Z Zrikem (2009). Numerical simulation by the FVM of coupled heat transfers by conduction, natural convection and radiation in honeycomb's hollow bricks. Building Simulation, 2: 263-272.
Crossref Google Scholar
 
JJ Del Coz Díaz, PJ García Nieto, C Betegón Biempica, MB Prendes (2007). Analysis and optimization of the heat-insulating light concrete hollow brick walls design by the finite element method. Applied Thermal Engineering, 27: 1445-1456.
Crossref Google Scholar
 
JJ Del Coz Díaz, PJ García Nieto, A Martin, A Lozano Martinez, C Betegón Biempica (2006). Non-linear thermal analysis of light concrete hollow brick walls by the finite element method and experimental validation. Applied Thermal Engineering, 26: 777-786.
Crossref Google Scholar
 
JJ Del Coz Díaz, PJ García Nieto, JL Suárez Sierra, C Betegón Biempica (2008a). Nonlinear thermal optimization of external light concrete multi-holed brick walls by the finite element method. International Journal of Heat and Mass Transfer, 51: 1530-1541.
Crossref Google Scholar
 
JJ Del Coz Díaz, PJ García Nieto, JL Suárez Sierra, I Peñuelas Sáncheza (2008b). Nonlinear thermal optimization and design improvement of a new internal light concrete multi-holed brick walls by FEM. Applied Thermal Engineering, 28: 1090-1100.
Crossref Google Scholar
Building Simulation
Volume 5 Issue 4,
December 2012
Pages 337-344
DOI: 10.1007/s12273-012-0064-9
Cite this article:
Boukendil M, Abdelbaki A, Zrikem Z. Detailed numerical simulation of coupled heat transfer by conduction, natural convection and radiation through double honeycomb walls. Building Simulation, 2012, 5(4): 337-344. https://doi.org/10.1007/s12273-012-0064-9

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Received: 07 May 2011
Revised: 21 May 2012
Accepted: 04 July 2012
Published: 12 August 2012
© Tsinghua University Press and Springer-Verlag Berlin Heidelberg 2012
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