Effect of window-to-wall ratio and thermal insulation on building thermal energy in various Iraqi Cities

Effect of window-to-wall ratio and thermal insulation on building thermal energy in various Iraqi Cities

Building design is a key aspect of attaining thermally effective buildings and noticeably contributes to decarbonizing the environment in hot locations. In this paper, the effect of window-to wall ratio (WWR) and thermal insulation thickness on the building energy has been studied numerically thro...

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Bibliographic Details
Main Authors: Qudama Al-Yasiri, Ahmed Alshara, Iman Al-Maliki, Howraa Al-Saadi, Sahar Al-Khafaji
Format: Article
Language:English
Published: University of Misan College of Engineering 2024-12-01
Series:Misan Journal of Engineering Sciences
Subjects:
building energy
building design
building envelope
thermal insulation
time delay
Online Access:https://uomisan.edu.iq/eng/mjes/index.php/eng/article/view/117
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Summary:Building design is a key aspect of attaining thermally effective buildings and noticeably contributes to decarbonizing the environment in hot locations. In this paper, the effect of window-to wall ratio (WWR) and thermal insulation thickness on the building energy has been studied numerically through a validated room model by EnergyPlus. Five WWRs (from 10% to 50% with a 10% increment) are examined under each study location. Later, the influence of various thermal insulation thicknesses (1, 3, 5, 7, and 9 cm) is investigated at the best WWR in each location considering the maximum mean temperature reduction and time lag. The study findings indicated that the best WWR for Al Amarah city is 20%, against 30% and 40% for Baghdad and Erbil cities, respectively. However, the indoor mean temperature increased slightly as the WWR increased in each city, influenced by the effect of the opaque elements. As for the effect of thermal insulation thickness, it could be stated that 3 cm is the best thickness for all locations at the best WWR, achieving maximum mean temperature reduction and time lag by 1.55 ºC and 3:33 h, 2.01 ºC and 4:03 h, 2.45 ºC and 5:57 h in Al Amarah, Baghdad and Erbil, respectively.
ISSN:2957-4242
2957-4250

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