Investigating the Thermal and Energy Performance of Advanced Glazing Systems in the Context of Hail City, KSA

Most new housing designs in Saudi Arabia are created to meet the client’s needs with minimal regard for environmental or energy-related considerations, resulting in buildings’ poor thermal performance and a growing reliance on artificial means. Polycarbonate windows have recently acquired popularity...

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Bibliographic Details
Published in:Buildings (Basel) 2023-03, Vol.13 (3), p.752
Main Authors: Abdelhafez, Mohamed Hssan Hassan, Aldersoni, Ali Abdulmohsen, Gomaa, Mohammad Mansour, Noaime, Emad, Alnaim, Mohammed Mashary, Alghaseb, Mohammed, Ragab, Ayman
Format: Article
Language:English
Subjects:
advanced glazing systems
Air conditioning
Architecture
Argon
Buildings
Carbon dioxide
Carbon dioxide emissions
Cities
Climate
Construction
Construction industry
Design
Emissions
Energy consumption
Glazing
Green buildings
Green design
Hail city
Housing
Humidity
Industrial buildings
Industrial plant emissions
Insulation
nanogel
nanomaterial-based insulation
Nanomaterials
Nanotechnology
Polycarbonate
Polycarbonate resins
polycarbonate windows
Roofing
Sensitivity analysis
Sustainable design
Sustainable development
Thermal analysis
thermal and energy performance
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Summary:Most new housing designs in Saudi Arabia are created to meet the client’s needs with minimal regard for environmental or energy-related considerations, resulting in buildings’ poor thermal performance and a growing reliance on artificial means. Polycarbonate windows have recently acquired popularity. Yet, there is a rising interest in combining polycarbonate windows with nanomaterials to reduce energy consumption, especially during the summer months when air conditioning use is at its peak. To improve building insulation, this research concentrated on the use of polycarbonate windows with nanogel, which has a low U-value. This study utilized polycarbonate windows with nanogel (two layers of polycarbonate panes filled with nanogel) in Hail City, Saudi Arabia, using DesignBuilder simulation software, resulting in a 14.3% reduction in annual energy consumption. The low U-value of nanogel compared to argon or air may be the cause of these savings, which are roughly double those gained by using double-paned polycarbonate windows. The incorporated nanogel layer between two layers of argon and two layers of polycarbonate panes decreased annual energy consumption by 29% compared to utilizing only one polycarbonate layer. Moreover, compared to a single 3 mm polycarbonate pane, the nanogel layer placed between two layers of argon and two layers of single polycarbonate panes demonstrated the lowest level of CO2 emissions, with an improvement of around 22.23%. This study reveals a method for insulating buildings that cuts energy use and CO2 emissions. This study’s conclusion supports the notion that sustainable design is the future. Sustainable construction can dramatically reduce building cooling costs and thermal loads.
ISSN:2075-5309
2075-5309
DOI:10.3390/buildings13030752