A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
A composite cool colored tile for sloped roofs with high ‘equivalent’ solar reflectance
Highlights Ceramic tiles covers the roofs of Mediterranean cities. Their low solar reflectance can cause overheating of the built environment below. Cool colors can be exploited to achieve a higher reflectance. An equivalent, much higher, reflectance can be achieved by coupling with an aerogel layer and a radiant barrier.
Abstract Mediterranean cities are characterized by sloped roofs with ceramic tiles of traditional colors such as brick red in different tones. Their solar reflectance is generally low and can cause overheating of the building due to solar gains during the hot season. In this work, an innovative approach is tested to achieve roof tiles with high capacity of rejecting solar radiation. It consists of using a cool-colored tile with relatively high solar reflectance, combined with a thin insulating layer attached below the tile and made of a silica-gel super-insulating material. An aluminum foil with very low thermal emittance is also applied below the insulating layer. Along the perimeter of each tile, line brushes are attached in order to enclose an almost sealed air space between the aluminum foil and the roof slab below when the tiles are supported on wooden battens. Composite tiles like that outlined here can provide a strong increase of roof thermal resistance, helpful to control either heat loss in winter, or building overheating in summer. They can be installed onto an existing roof, for instance the sloped tile roof of a historical or traditional building, with no need to modify the roof height and structure.
A composite cool colored tile for sloped roofs with high ‘equivalent’ solar reflectance
Highlights Ceramic tiles covers the roofs of Mediterranean cities. Their low solar reflectance can cause overheating of the built environment below. Cool colors can be exploited to achieve a higher reflectance. An equivalent, much higher, reflectance can be achieved by coupling with an aerogel layer and a radiant barrier.
Abstract Mediterranean cities are characterized by sloped roofs with ceramic tiles of traditional colors such as brick red in different tones. Their solar reflectance is generally low and can cause overheating of the building due to solar gains during the hot season. In this work, an innovative approach is tested to achieve roof tiles with high capacity of rejecting solar radiation. It consists of using a cool-colored tile with relatively high solar reflectance, combined with a thin insulating layer attached below the tile and made of a silica-gel super-insulating material. An aluminum foil with very low thermal emittance is also applied below the insulating layer. Along the perimeter of each tile, line brushes are attached in order to enclose an almost sealed air space between the aluminum foil and the roof slab below when the tiles are supported on wooden battens. Composite tiles like that outlined here can provide a strong increase of roof thermal resistance, helpful to control either heat loss in winter, or building overheating in summer. They can be installed onto an existing roof, for instance the sloped tile roof of a historical or traditional building, with no need to modify the roof height and structure.
A composite cool colored tile for sloped roofs with high ‘equivalent’ solar reflectance
Ferrari, Chiara (author) / Libbra, Antonio (author) / Cernuschi, Federico Maria (author) / De Maria, Letizia (author) / Marchionna, Stefano (author) / Barozzi, Matteo (author) / Siligardi, Cristina (author) / Muscio, Alberto (author)
Energy and Buildings ; 114 ; 221-226
2015-06-24
6 pages
Article (Journal)
Electronic Resource
English
A composite cool colored tile for sloped roofs with high 'equivalent' solar reflectance
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