A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Modeling of an Aerogel-Based “Thermal Break” for Super-Insulated Window Frames
Research activities in the field of innovative fixtures are continuously aiming at increasing their thermal and optical performances to offer optimal exploitation of daylight and solar gains, providing effective climate screen, according to increasing standards for indoor comfort and energy saving. Within this work, we designed an innovative aerogel-based “thermal break” for window frames, so as to consistently reduce the frame conductance. Then, we compared the performance of this new frame both with currently used and obsolete frames, present in most of the existing building stock. Energy savings for heating and cooling were assessed for different locations and confirmed the potential role played by super-insulating materials in fixtures for extremely rigid climates.
Modeling of an Aerogel-Based “Thermal Break” for Super-Insulated Window Frames
Research activities in the field of innovative fixtures are continuously aiming at increasing their thermal and optical performances to offer optimal exploitation of daylight and solar gains, providing effective climate screen, according to increasing standards for indoor comfort and energy saving. Within this work, we designed an innovative aerogel-based “thermal break” for window frames, so as to consistently reduce the frame conductance. Then, we compared the performance of this new frame both with currently used and obsolete frames, present in most of the existing building stock. Energy savings for heating and cooling were assessed for different locations and confirmed the potential role played by super-insulating materials in fixtures for extremely rigid climates.
Modeling of an Aerogel-Based “Thermal Break” for Super-Insulated Window Frames
Alessandro Cannavale (author) / Francesco Martellotta (author) / Umberto Berardi (author) / Chiara Rubino (author) / Stefania Liuzzi (author) / Vincenzo De Carlo (author) / Ubaldo Ayr (author)
2020
Article (Journal)
Electronic Resource
Unknown
Metadata by DOAJ is licensed under CC BY-SA 1.0
Super insulated aerogel windows: Impact on daylighting and thermal performance
| British Library Online Contents | 2015
Super insulated aerogel windows: Impact on daylighting and thermal performance
| Online Contents | 2015