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Numerical analysis for energy performance optimization of hollow bricks for roofing. Case study: Hot climate of Algeria

Allam Bachir, Nehari Taieb

2023Construction and Building Materials31 citationsDOIOpen Access PDF

Abstract

In this century, the world is undergoing an energy transition led mainly by renewable energy and smart technologies. The realization of the energy-efficient building concept is a promising direction for global energy savings. This work investigates the benefit of incorporating three passive measures in hollow clay brick (HCB-8) structures commonly used in Algeria to improve thermal comfort and energy savings in buildings subjected to the climatic conditions of the city of Bechar. Ansys-Fluent software was used to study the heat transfer through different configurations of (HCB-8) integrated with a combination of two different passive measures. The results reveal that coating the inner surfaces of the brick’s cavities with a low emissivity coating, filling cavities with expanding polystyrene (EPS), or using phase change materials (PCM) improves the thermal inertia of hollow clay bricks. It can be argued that capric acid is a more effective PCM than n -Eicosane and RT-42. In addition, the study results show that the simultaneous incorporation of PCM and EPS into the brick can reduce the internal heat flux by about 73.7 % and shift the external heat wave in the indoor environment by about 5.5 h compared to traditional hollow clay bricks.

Topics & Concepts

BrickMaterials scienceCoatingRenewable energyPhase-change materialComposite materialHeat fluxThermalExpanded polystyreneEnvironmental scienceMechanical engineeringHeat transferEngineeringMeteorologyMechanicsElectrical engineeringPhysicsPhase Change Materials ResearchBuilding Energy and Comfort OptimizationUrban Heat Island Mitigation
Numerical analysis for energy performance optimization of hollow bricks for roofing. Case study: Hot climate of Algeria | Litcius