Facades Integrated Solar-thermal Collectors – Challenges and Solutions

The Solar Heating and Cooling Roadmap (2014) set a main focus “on increasing the share of solar thermal energy for the domestic hot water and space heating demand per building, from about 25% to about 60%” with installed systems on or near the buildings. The suitable implementation area at building...

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Bibliographic Details
Published in:Energy procedia 2017-03, Vol.112, p.176-185
Main Authors: Visa, Ion, Moldovan, Macedon, Comsit, Mihai, Neagoe, Mircea, Duta, Anca
Format: Article
Language:English
Subjects:
Building integrated solar-thermal systems
solar facade
solar-thermal array
trapeze solar-thermal collector
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Summary:The Solar Heating and Cooling Roadmap (2014) set a main focus “on increasing the share of solar thermal energy for the domestic hot water and space heating demand per building, from about 25% to about 60%” with installed systems on or near the buildings. The suitable implementation area at building level is limited, and optimally oriented facades have to be considered. Facades integration adds pre-requisites to the design specifications of the solar thermal collectors, mainly related to the architectural acceptance and good conversion efficiency. A novel solar-thermal collector was developed to specifically address the main challenges brought by facades implementation. The collector with trapeze shape (0.67m2 active area, 69.42% nominal efficiency) is used as building block in arrays with various surface areas, shapes and colors, well matching the variety of the buildings facades. A comparative analysis of the solar-thermal arrays of three trapeze collectors and traditional rectangular collectors is presented in the paper. Three facades of single- and three of multi-family houses are comparatively analyzed considering architectural acceptance, functionality, durability (limited tracking) and thermal power output.
ISSN:1876-6102
1876-6102
DOI:10.1016/j.egypro.2017.03.1080