Title :
Hybrid micro-scale CPV/PV architecture
Author :
Haney, Michael W. ; Tian Gu ; Agrawal, Gagan
Author_Institution :
Univ. of Delaware, Newark, DE, USA
Abstract :
A novel hybrid PV solar cell architecture is presented that integrates high-performance micro-optics-based CPV array technology with a 1-sun PV cell within a low-profile panel structure. The approach simultaneously captures the direct solar radiation components with arrayed high-efficiency CPV cells and the diffuse solar components with an underlying wide-area PV cell. Performance analyses predict that the hybrid approach will significantly enhance the average collected energy for the full range of diffuse/direct radiation patterns across the USA. Furthermore, cost analyses indicate that the hybrid concept may be beneficial for a wide range of locations. Preliminary out-door experimental evaluation of a micro-optical system for use in a hybrid architecture verified that a large proportion of the direct radiation component was concentrated onto emulated micro-PV cell regions while the photons collected in the 1-sun area would considerably boost the overall performance of such a CPV system.
Keywords :
micro-optics; optical arrays; photovoltaic cells; solar cells; solar energy concentrators; arrayed high efficiency CPV cells; concentrating photovoltaic systems; diffuse radiation patterns; diffuse solar components; direct radiation patterns; direct solar radiation component; high performance microoptics; hybrid microscale CPV/PV architecture; low profile panel structure; photovoltaic solar cell; Computer architecture; Lead; Light emitting diodes; Microprocessors; Nanotechnology; Optics; Photovoltaic cells; micro-optics; multi-junction solar cells; photovoltaic cells; photovoltaic systems; solar energy;
Conference_Titel :
Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th
Conference_Location :
Denver, CO
DOI :
10.1109/PVSC.2014.6925343
