Abstract:
Two main issues governing the design of a solar concentrator module with triple-junction nano-heterostructure photovoltaic converters (PVCs) are considered: the effective concentration of radiation using Fresnel lenses and effective heat removal from PVCs. By theoretically and experimentally simulating these processes, the design parameters of module's elements are determined. A test batch of full-size modules has been fabricated. Each module consists of a front panel of small-size Fresnel lenses (a total of 144 lenses arranged as a 12 $\times$ 12 array) and the corresponding number of multilayer InGaP/GaAs/Ge PVCs. The PVCs are mounted on heat-distributing plates and are also integrated into a panel. The efficiency of the concentrator module with a 0.5 $\times$ 0.5-m entrance aperture measured under outdoor conditions is 24.3%, which is more than twice as high as the efficiency of standard (concentrator-free) silicon modules. In smaller test modules, the efficiency corrected for the PVC standard temperature (25$^\circ$C) reaches 26.5%.
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