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RADIATIVE TRANSFER - VI. Proceedings of the 6th International Symposium on Radiative Transfer
June, 13-19, 2010, Antalya, Turkey

DOI: 10.1615/ICHMT.2010.RAD-6


ISBN Print: 978-1-56700-269-0

ISSN Online: 2642-5629

ISSN Flash Drive: 2642-5661

THERMAL IMPACTS ON PERFORMANCES OF NANOSCALE-GAP THERMOPHOTOVOLTAIC ENERGY CONVERSION DEVICES

pages 62-64
DOI: 10.1615/ICHMT.2010.RAD-6.550
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ABSTRAKT

In thermophotovoltaic (TPV) energy conversion, a heat source is employed to maintain a radiator at a specified temperature, which in turns emits thermal radiation toward a cell generating electricity. In order to potentially improve the power output and conversion efficiency of TPV systems, Whale and Cravalho [1] proposed to separate the radiator and TPV cells by a sub-wavelength vacuum gap. At sub-wavelength distances, radiation heat transfer is in the near-field regime, such that the energy exchanges can exceed the values predicted for blackbodies. For thermal radiation temperatures, the near-field effects become dominant when the bodies are separated by few tens of nanometers. Therefore, a TPV system using the near-field effects of thermal radiation is referred hereafter as a nanoscalegap TPV (nano-TPV) device. While the literature has clearly shown that the near-field effects of thermal radiation can substantially improve the electrical power output of TPV systems [1-3], some important questions about the feasibility of nano-TPV energy conversion are still unanswered. In this work, we aim to study the energy required for maintaining the TPV cells at room temperature via the analysis of the thermal effects in nano-TPV devices. For purpose of comparison with the literature, we study systems based on In0.18Ga0.82Sb cells [3].

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