1. The impact of glazing ratio and window configuration on occupants’ comfort and energy demand: The case study of a school building in Eskisehir, Turkey
- Author
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Touraj Ashrafian, Nazanin Moazzen, and Maltepe Üniversitesi
- Subjects
Illumination level ,Architectural engineering ,Computer science ,media_common.quotation_subject ,Occupant comfort ,Geography, Planning and Development ,0211 other engineering and technologies ,Transportation ,02 engineering and technology ,010501 environmental sciences ,01 natural sciences ,Transparency ratio ,Glazing system ,Daylight ,Quality (business) ,021108 energy ,0105 earth and related environmental sciences ,Civil and Structural Engineering ,media_common ,Energy demand ,Renewable Energy, Sustainability and the Environment ,business.industry ,Glare (vision) ,Thermal comfort ,Energy consumption ,Solar energy ,Glazing ,Transparency (graphic) ,business - Abstract
WOS: 000471280400036, Various investigations have confirmed that pupils and teachers' learning/teaching performance and health depend heavily on the quality and amount of daylight and indoor thermal conditions. The primary aim of using natural light in schools is to reduce energy consumption and costs, but it should also improve students' performance. An appropriate configuration of windows improves visual and thermal comfort by reducing glare, distributing light and controlling solar energy gain. The study focuses on the impact of different transparency ratios (WWR) and window combinations in two critical orientations (west and east) on occupants' comfort and the energy demands of a classroom. A building was selected for a case study investigation at the design stage. One east-facing and one west-facing classroom were studied. The two classrooms were simulated with the aid of the lighting and energy simulation programs DIALux Evo 6.0, DesignBuilder 5.5 and EnergyPlus 8.9. The results indicated that a glazing ratio of 50% would reduce the requirement for artificial lighting by at least 15% as well as providing more comfortable conditions.
- Published
- 2019
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