[Construction Case] Reduction of Electricity Costs for Refrigerated Containers
Usage: Refrigerated container Installed products: Roof) Thermo Barrier Sky Ceiling, Wall) Thermo Barrier S Installation area: 160m2 Installation period: Installed in March 2022 Construction duration: 2 days Reason for introduction: Adopted to reduce electricity costs (air conditioning expenses in summer).
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Roof) Thermo Barrier Sky Ceiling, Wall) Thermo Barrier S We select construction products according to the installation location. Product used: Thermo Barrier S (Non-combustible certification by the Ministry of Land, Infrastructure, Transport and Tourism) An all-purpose type that combines insulation and high reflectivity with double-sided aluminum foil on air caps. It can be used in various locations and allows for internal reflection installation. Product type: 4mm type Product structure: Aluminum foil + single-layer air cap + aluminum foil Air cap size: Ø10mm, H3.5mm Air cap weight: 211g/m² Product size: 1.2m × 40m Thickness: 3.7mm Weight: 285g/m² Emissivity: 3% Thermal conductivity: 0.0408W/(m·K) Density: 81.4Kg/m³ Reflectivity: 97% Water vapor permeability: 0.005g/m²/day Tensile strength CD (horizontal): 715kg/cm² Tensile strength MD (vertical): 694kg/cm² Aluminum purity: 99.35% Operating temperature range: -20℃ to 90℃ Product used: Thermo Barrier Sky Method This is a patented method that uses sky sheets for installation.
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Among the numerous examples of Thermo Barrier installations, this case involves an installation in a refrigerated container. There are also achievements in container offices, prefabricated buildings, and storage sheds. ▼ Thermo Barrier product installation examples https://www.e-lifetech.com/works/
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By using thermal barriers on the roofs and walls of homes and factories, it is possible to suppress the rise in building temperature caused by the radiant heat of the summer sun, thereby lowering the perceived temperature. This makes it possible to reduce the use of air conditioning. Thermal barriers are also effective in winter. In winter, the indoor temperature tends to escape outside. Since thermal barriers reflect the radiant heat generated indoors back into the room, they help prevent a decrease in indoor temperature. Utilizing this function, thermal barriers play a very important role in achieving "cool in summer and warm in winter" easily and affordably.