TY - JOUR
T1 - Optical performance and alignment characterization of a parabolic trough collector using a multi-junction CPV solar cell
AU - Felsberger, Richard
AU - Buchroithner, Armin
AU - Gerl, Bernhard
AU - Schweighofer, Bernhard
AU - Preßmair, Rupert
AU - Mitter, Tobias
AU - Wegleiter, Hannes
PY - 2022/6
Y1 - 2022/6
N2 - Parabolic trough collectors are widely used to generate thermal and/or electrical energy from direct solar irradiation. These collectors use parabolic mirrors to precisely focus sunlight onto so-called absorber tubes. The optimal design and geometric alignment of all necessary components is essential in order to achieve a high degree of efficiency and a high energy yield. However, this optical fine-tuning process can be quite challenging and is in many cases avoided by using absorber tubes with larger diameters, which in turn cause greater thermal losses and a higher material effort. This paper describes a simple, yet reliable and quantifiable way to measure the optical performance of a parabolic trough collector using a commercial multi-junction solar cell (CPV). The presented measurement system allows for convenient adjustment of the parabolic mirror and the effective optimization of the overall collector design. The theoretical background is discussed and the test setup is described in detail. Measurement results are presented, ranging from the determination of the actual optical concentration ratio, the optimal centering and height adjustment of the absorber tube to the measurement of the contribution of the individual mirror segments, revealing that the investigated industrial parabolic trough collector can be improved in terms of optical accuracy. Finally, an optical surveillance of the mirror using a line laser was performed to validate the results.
AB - Parabolic trough collectors are widely used to generate thermal and/or electrical energy from direct solar irradiation. These collectors use parabolic mirrors to precisely focus sunlight onto so-called absorber tubes. The optimal design and geometric alignment of all necessary components is essential in order to achieve a high degree of efficiency and a high energy yield. However, this optical fine-tuning process can be quite challenging and is in many cases avoided by using absorber tubes with larger diameters, which in turn cause greater thermal losses and a higher material effort. This paper describes a simple, yet reliable and quantifiable way to measure the optical performance of a parabolic trough collector using a commercial multi-junction solar cell (CPV). The presented measurement system allows for convenient adjustment of the parabolic mirror and the effective optimization of the overall collector design. The theoretical background is discussed and the test setup is described in detail. Measurement results are presented, ranging from the determination of the actual optical concentration ratio, the optimal centering and height adjustment of the absorber tube to the measurement of the contribution of the individual mirror segments, revealing that the investigated industrial parabolic trough collector can be improved in terms of optical accuracy. Finally, an optical surveillance of the mirror using a line laser was performed to validate the results.
KW - Solar flux measurement system
KW - Concentration ratio
KW - Parabolic trough collector
KW - Multi-junction cell
KW - Concentrated photovoltaic (CPV)
KW - Concentrated solar power (CSP)
UR - http://www.scopus.com/inward/record.url?scp=85129737007&partnerID=8YFLogxK
U2 - 10.1016/j.solener.2022.04.058
DO - 10.1016/j.solener.2022.04.058
M3 - Article
SN - 0038-092X
VL - 239
SP - 40
EP - 49
JO - Solar Energy
JF - Solar Energy
ER -