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The impact of window orientation, glazing, and window-to-wall ratio on the heating and cooling energy of an office building: The case of hot and semi-arid climate

Ahmed Emad Ahmed, Mahmood Sh. Suwaed, Ahmed Mohammed Shakir, Ahmed Ghareeb

2023Journal of Engineering Research47 citationsDOIOpen Access PDF

Abstract

Adopting suitable design strategies in buildings throughout the design stage provides increased energy-saving potential. In this study, factors influencing window design, such as the window-to-wall ratio (WWR) and window orientation, along with different glazing materials, are being investigated in the city of Kirkuk, Iraq for possible energy consumption reduction. The study presents a simulation-based analysis on a typical office building in the area; evaluating four WWRs, four orientations, and three window glazing materials, e.g., clear, gray, and theoretical, as well as single and double-glazed windows. The results indicate that minimum heating consumption could be achieved with double clear glass for south-facing windows if WWR was 100%. For north-facing windows, minimum cooling consumption is achieved with double theoretical-197 glass with a 25% WWR. These measures can be utilized by architects and construction managers to communicate information to customers in an understandable manner and make better window design decisions.

Topics & Concepts

GlazingWindow (computing)Architectural engineeringEnergy consumptionOrientation (vector space)Solar gainConsumption (sociology)Window of opportunityComputer scienceStructural engineeringCivil engineeringEngineeringThermalMeteorologyGeographyReal-time computingMathematicsSociologyGeometrySocial scienceOperating systemElectrical engineeringBuilding Energy and Comfort OptimizationUrban Heat Island MitigationWind and Air Flow Studies