LAPSE:2023.27429
Published Article
LAPSE:2023.27429
The Power and Efficiency Analyses of the Cylindrical Cavity Receiver on the Solar Stirling Engine
April 4, 2023
Abstract
The technique of solar dish and Stirling engine combination is the most challenging and promising one. For the efficient conversion of the externally concentrated heat to the usable power, we studied the influences of the wall temperature, inclination angle, and open area ratio of the receiver on the Stirling engine power and efficiency. The theoretical analysis of the heat exchange element of the solar Stirling engine was performed, and the simulation model of the cavity absorber was built and analyzed. The temperature cloud and heat loss trends of the receiver under different wall temperatures, inclination angles, and opening ratios were illustrated. When the wall temperature of the absorber changes from 700 to 1000 K, the efficiency of the engine has increased by 8.8% from 21.34% to 30.11%. The higher the temperature, the higher the efficiency. As the inclination angle of the absorber increases from 0° to 60°, the efficiency of the engine is increased by 7.7% from 21.1% to 28.8%. With the increases of the aperture ratio, the engine output and efficiency reduced. The engine efficiency at the aperture ratio of 0.5 is 4% larger than that at the aperture ratio of 1.
The technique of solar dish and Stirling engine combination is the most challenging and promising one. For the efficient conversion of the externally concentrated heat to the usable power, we studied the influences of the wall temperature, inclination angle, and open area ratio of the receiver on the Stirling engine power and efficiency. The theoretical analysis of the heat exchange element of the solar Stirling engine was performed, and the simulation model of the cavity absorber was built and analyzed. The temperature cloud and heat loss trends of the receiver under different wall temperatures, inclination angles, and opening ratios were illustrated. When the wall temperature of the absorber changes from 700 to 1000 K, the efficiency of the engine has increased by 8.8% from 21.34% to 30.11%. The higher the temperature, the higher the efficiency. As the inclination angle of the absorber increases from 0° to 60°, the efficiency of the engine is increased by 7.7% from 21.1% to 28.8%. With the increases of the aperture ratio, the engine output and efficiency reduced. The engine efficiency at the aperture ratio of 0.5 is 4% larger than that at the aperture ratio of 1.
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Keywords
cavity receiver, efficiency, heat loss analysis, performance simulation, power, solar Stirling engine
Subject
Suggested Citation
Li JQ, Kwon JT, Jang SJ. The Power and Efficiency Analyses of the Cylindrical Cavity Receiver on the Solar Stirling Engine. (2023). LAPSE:2023.27429
Author Affiliations
Li JQ: Department of Mechanical Engineering, Graduate School, Hoseo University, Asan 31499, Korea [ORCID]
Kwon JT: Division of Mechanical and Automotive Engineering, Hoseo University, Asan 31499, Korea [ORCID]
Jang SJ: Division of Mechanical and Automotive Engineering, Hoseo University, Asan 31499, Korea
Kwon JT: Division of Mechanical and Automotive Engineering, Hoseo University, Asan 31499, Korea [ORCID]
Jang SJ: Division of Mechanical and Automotive Engineering, Hoseo University, Asan 31499, Korea
Journal Name
Energies
Volume
13
Issue
21
Article Number
E5798
Year
2020
Publication Date
2020-11-05
ISSN
1996-1073
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Original Submission
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PII: en13215798, Publication Type: Journal Article
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LAPSE:2023.27429
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https://doi.org/10.3390/en13215798
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