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Performance of a Heat-Pipe Cooled Concentrated Photovoltaic/Thermoelectric Hybrid System

Mohamed M. Sabry, Abdelrahman Lashin

2023Energies15 citationsDOIOpen Access PDF

Abstract

Compared to traditional one-sun solar cells, multijunction concentrator cells operating under concentrated solar radiation are advantageous because of their high output and low cooling costs. Such a concentrator PV requires a cooling technique to maintain its performance and efficiency. The performance of a multi-junction concentrator photovoltaic cell of efficiency around 33%, operating under concentrated solar radiation (160–250 sun), has been tested. Heat pipes were used in this study as a fast and efficient way of rejecting heat accumulated in the cells. In this work, the evaporator side of the heat pipe was set in thermal contact with the back side of the solar cell such that the excess heat was transferred efficiently to the other side (condenser side). To positively utilize such excessive heat, two thermoelectric generators were thermally attached to either side of the condenser of the heat pipe, and each was attached to a fin-shaped heat sink. Four different cooling configurations were tested and compared. The net power obtained by this concentrator solar cell employing two types of TEG with different lengths as a cooling alongside two thermoelectric generators for heat-to-electricity conversion was 20% and 17%, corresponding to the long and short heat pipe configurations, respectively, compared to traditional a heat sink only configured at an optical concentration of 230 suns.

Topics & Concepts

Heat sinkHeat pipeMaterials scienceSuns in alchemyCondenser (optics)Nuclear engineeringPhotovoltaic systemConcentratorPassive coolingThermoelectric coolingPhotovoltaic thermal hybrid solar collectorEnergy conversion efficiencyThermoelectric generatorThermoelectric effectThermalMechanical engineeringOptoelectronicsHeat transferOpticsElectrical engineeringMechanicsEngineeringThermodynamicsPhysicsLight sourcesolar cell performance optimizationThermal Radiation and Cooling TechnologiesAdvanced Thermoelectric Materials and Devices
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