Title :
Solar energy harvesting clear glass for building-integrated photovoltaics
Author :
Alameh, K. ; Vasiliev, M. ; Alghamedi, R. ; Nur-E-Alam, M. ; Rosenberg, V.
Author_Institution :
Electron Sci. Res. Inst., Edith Cowan Univ., Joondalup, WA, Australia
Abstract :
We propose and demonstrate the concept of an energy-harvesting clear glass panel based on the use of all-inorganic luminophores embedded into a lamination layer in conjunction with low-emissivity coatings and CIS solar cells. Most of the visible solar radiation is transmitted through the laminated glass panel while UV radiation is down-converted and guided together with a part of infrared radiation to the edges for conversion to electricity by solar cells integrated at the edges of the glass panel. Experimental results demonstrate that a 10cmx10cm energy-harvesting clear glass can pass about 70% of the visible solar radiation, block 90% of UV and IR solar energy blocking and generate almost 30Wp/m2.
Keywords :
building integrated photovoltaics; copper compounds; energy harvesting; glass; laminations; solar cells; solar radiation; CIS solar cells; CuInSe2; IR solar energy blocking; UV radiation; UV solar energy blocking; all-inorganic luminophores; building integrated photovoltaics; clear glass panel; infrared radiation; laminated glass panel; lamination layer; low-emissivity coatings; size 10 cm; solar energy harvesting clear glass; visible solar radiation; Australia; Glass; Powders; Solar energy; Wavelength measurement; Windows; Solar energy; luminophores; thin film coating;
Conference_Titel :
High-capacity Optical Networks and Emerging/Enabling Technologies (HONET), 2014 11th Annual
Conference_Location :
Charlotte, NC
Print_ISBN :
978-1-4799-6939-5
DOI :
10.1109/HONET.2014.7029393
