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Parabolic Mirror‐Assisted Thermoelectric and Radiative Cooling System for Maximizing Power Generation Utilizing Solar and Outer Space Thermodynamic Resources

Ik Hoon Jeong, Sang Wook Park, Min Seong Kim, June Tae Kim, Gil Ju Lee

2023Advanced Materials Interfaces17 citationsDOIOpen Access PDF

Abstract

Abstract Radiative cooling technology is extensively researched as a green technology, leveraging outer space as a thermodynamic resource. Recently, integrating thermoelectric generators (TEGs) and radiative coolers (RCs) are proposed to generate power using the temperature difference between the ambient and the radiative cooler. However, current TEG‐RC systems only utilize one thermodynamic resource, resulting in suboptimal efficiency. It proposes a parabolic mirror‐assisted TEG‐RC system that fully utilizes both the Sun and outer space as thermodynamic resources. The system places the hot side of the TEG, covered by a solar absorber (SA), at the focal point of the parabolic mirror, while the RC is located on the cold side of the TEG. Theoretical and experimental results reveal the optimal ratio between the RC and SA sizes to balance the power mismatch between cooling and heating powers. It also finds that the number of TEG stacks significantly affects power generation efficiency and determines the optimal number. Outdoor measurements demonstrate exceptional power generation during the daytime, which is an unprecedented achievement. This study also demonstrates the further enhancement in power generation efficiency when the proposed system is integrated with concentrated solar cells instead of the SA.

Topics & Concepts

Radiative transferMaterials scienceRadiative coolingThermoelectric generatorPower BalancePower (physics)Maximum power principleOptoelectronicsThermoelectric effectElectricity generationNuclear engineeringProcess engineeringThermodynamicsOpticsPhysicsEngineeringThermal Radiation and Cooling TechnologiesUrban Heat Island MitigationAdvanced Thermodynamics and Statistical Mechanics
Parabolic Mirror‐Assisted Thermoelectric and Radiative Cooling System for Maximizing Power Generation Utilizing Solar and Outer Space Thermodynamic Resources | Litcius