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A novel approach for optimized design of low-E windows and visual comfort for residential spaces

Ehsan Sorooshnia, Maria Rashidi, Payam Rahnamayiezekavat, Samira Mahmoudkelayeh, Mitra Pourvaziri, Saeed Kamranfar, Mohammad Gheibi, Bijan Samali, Reza Moezzi

2023Energy and Built Environment38 citationsDOIOpen Access PDF

Abstract

Double low-E glasses are effective and well-established choices for residential buildings in temperate climatic regions of Sydney, Australia, and Tehran, Iran. The current study's measurements and field experiments have shown that using a double low-E windowpane can improve window total transmitted radiation energy (TSRE) and daylight glare factor. Nevertheless, spatial daylight autonomy (sDA) and daylight illuminance are the shortcomings of using double-low-E glasses. These implications demonstrated that using double low-E glazing is a double-edged sword. Despite its efficiency in improving energy consumption, it cannot satisfy daylight comfort requirements. Therefore, this research intends to find the most suitable solution to exploit double-low-E glasses' benefits and avoid their drawbacks. Subsequently, the genetic algorithm has been used to find the optimum window size through a multi-objective simulation by Climate Studio. The findings suggest that the optimum WWR of 10.35%–10.99% in Tehran brings the daylight comfort metrics above the threshold while the energy consumption metrics are kept at a minimum. Similarly, for Sydney, these measures are 20%–24% room length for the horizontal dimension of a window and 33%–40% room height for the vertical penetration dimension. In this way, using a double low-E window pane is justifiable for both examined regions.

Topics & Concepts

DaylightGlazingIlluminanceComputer scienceGLAREArchitectural engineeringFacadeEnvironmental scienceMicroclimateOvercastLow energyEnergy consumptionWindow (computing)SimulationMeteorologyOpticsGeographyEngineeringCivil engineeringMaterials sciencePhysicsElectrical engineeringComposite materialLayer (electronics)SkyAtomic physicsOperating systemArchaeologyBuilding Energy and Comfort OptimizationUrban Heat Island MitigationImpact of Light on Environment and Health
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