Title :
Holographic solar concentrator for terrestrial photovoltaics
Author :
Ludman, Jacques ; Riccobono, Juanita ; Reinhand, Nadya ; Semenova, Irina ; Martin, Jose ; Tai, William ; Li, Xiao-Li ; Syphers, Geof
Author_Institution :
Northeast Photosci. Inc., Hollis, NH, USA
Abstract :
This paper describes theoretical and experimental work performed on these high efficiency holographic concentrating and spectral splitting photovoltaic systems. The theoretical system efficiency was calculated to be 41% for a GaAs-InGaAs tandem cell when the hologram was recorded at 632.8 nm. A prototype system was used to demonstrate that it maintained a fairly constant efficiency over a period of 15 minutes without a heatsink; whereas the efficiency of a Fresnel system, using the same aperture and cell, dropped a factor of two within 30 seconds when used without a heatsink. Finally, a cost analysis of this system estimates it to generate power for 5.7 c per kWh when production levels reach 20 MW per year capacity
Keywords :
III-V semiconductors; economics; gallium arsenide; holography; indium compounds; solar cells; solar energy concentrators; 20 MW; 41 percent; 632.8 nm; Fresnel system; GaAs-InGaAs; GaAs-InGaAs tandem cell; cost analysis; holographic solar concentrator; spectral splitting photovoltaic systems; terrestrial photovoltaics; theoretical system efficiency; Chemical analysis; Contacts; Heat engines; Holography; Infrared spectra; Optical diffraction; Photovoltaic cells; Solar energy; Solar heating; Wavelength conversion;
Conference_Titel :
Photovoltaic Energy Conversion, 1994., Conference Record of the Twenty Fourth. IEEE Photovoltaic Specialists Conference - 1994, 1994 IEEE First World Conference on
Conference_Location :
Waikoloa, HI
Print_ISBN :
0-7803-1460-3
DOI :
10.1109/WCPEC.1994.520181
