Comprehensive Energy Balance Analysis of Photon-Enhanced Thermionic Power Generation Considering Concentrated Solar Absorption Distribution

The present article reports a comprehensive energy balance analysis of a photon-enhanced thermionic emission (PETE) device when it is used for concentrated solar power (CSP) generation. To this end, we consider a realistic PETE device composed of a boron-doped silicon emitter on glass and a phosphor...

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Bibliographic Details
Published in:arXiv.org 2020-11
Main Authors: A N M Taufiq Elahi, Ghashami, Mohammad, Jensen, Devon, Park, Keunhan
Format: Article
Language:English
Subjects:
Absorption
Boron
Diamonds
Emission analysis
Emitters
Energy
Energy conversion efficiency
Mathematical analysis
Photons
Photothermal conversion
Photovoltaic cells
Thermionic emission
Thermionic power generation
Tungsten
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Summary:The present article reports a comprehensive energy balance analysis of a photon-enhanced thermionic emission (PETE) device when it is used for concentrated solar power (CSP) generation. To this end, we consider a realistic PETE device composed of a boron-doped silicon emitter on glass and a phosphorus-doped diamond collector on tungsten separated by the inter-electrode vacuum gap. Depth-dependent spectral solar absorption and its photovoltaic and photothermal energy conversion processes are rigorously calculated to predict the PETE power output and energy conversion efficiency. Our calculation predicts that when optimized, the power output of the considered PETE device can reach 1.6 W/cm\(^2\) with the energy conversion efficiency of \(\sim\)18 \% for 100\(\times\) solar concentration, which is substantially lower than those predicted in previous works under ideal conditions. In addition, the photon-enhancement ratio is lower than 10 and decreases with the increasing solar concentration due to the photothermal heating of the emitter, suggesting that PETE may be an adequate energy conversion process for low-to-medium CSP below \(\sim\)100\(\times\) concentration. These observations signify the importance of a rigorous energy balance analysis based on spectral and spatial solar absorption distribution for the accurate prediction of PETE power generation.
ISSN:2331-8422
DOI:10.48550/arxiv.2011.12909