Title :
Patented twintex® hybrid PV/T collector: Level of performances and comparison with thermal solar collector
Author :
Cristofari, C. ; Canaletti, J.L. ; Notton, G.
Author_Institution :
Georges Peri Lab., Univ. of Corsica, Ajaccio, France
Abstract :
In the context of climate change in the world at the global level, various actions are taken for the development of Renewable Energy and particularly solar energy. Many technology solutions have been proposed such as solar hybrid collector whose objectives is to improve the PV panels performance by recovering heat looses with the heat removal fluid. The objectives of this article is to propose a hybrid photovoltaic-thermal collector manufactured in a polymer material twintex® patented by Saint-Gobin company, to have product lighter, cheaper and easier to handle. We expose the performance of this PV-T collector manufactured without air layer.
Keywords :
polymers; solar absorber-convertors; solar cells; PV panel performance; PV-T collector; Saint-Gobin company; climate change; global level; heat looses; heat removal fluid; hybrid photovoltaic-thermal collector; patented Twintex hybrid PV IT collector; polymer material twintex; renewable energy; solar energy; thermal solar collector; Heating; Photovoltaic supply; Solar Hybrid Collector PV-TH; Solar System;
Conference_Titel :
Utility Exhibition on Power and Energy Systems: Issues & Prospects for Asia (ICUE), 2011 International Conference and
Conference_Location :
Pattaya City
Print_ISBN :
978-1-4673-6006-7
DOI :
10.1109/ICUEPES.2011.6497769
