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Influences of installation and tracking errors on the optical performance of a solar parabolic trough collector

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  • Zhao, Dongming
  • Xu, Ershu
  • Wang, Zhifeng
  • Yu, Qiang
  • Xu, Li
  • Zhu, Lingzhi

Abstract

The parabolic trough collector is an important component of parabolic trough solar thermal power generation systems. Coordinate transformations and the Monte Carlo Ray Trace (MCRT) method were combined to simulate the circumferential flux distribution on absorber tubes. The simulation model includes the optics cone with non-parallel rays, geometric concentration ratios (GCs), the glass tube transmissivity, the absorber tube absorptance and the collector surface reflectivity. The mode is used to analyze the effects of absorber tube installation errors and reflector tracking errors. The results are compared with reference data to verify the model accuracy. Influences of installation and tracking errors on the flux distribution are analyzed for different errors, incident angles and GCs. For a GC of 20 and 90° rim angle, X direction installation errors are −0.2%∼0.2%, Y direction installation errors are −1.0%–0.5%, and the tracking error should be less than 4 mrad. As the incident angle increases, the errors become larger, but the errors become smaller as concentration ratios are increased. The results provide foundations for heat transfer analysis of the absorber tube, for parabolic trough plant to ensure the safe intensity, and for economic analysis of the installation process and control system.

Suggested Citation

  • Zhao, Dongming & Xu, Ershu & Wang, Zhifeng & Yu, Qiang & Xu, Li & Zhu, Lingzhi, 2016. "Influences of installation and tracking errors on the optical performance of a solar parabolic trough collector," Renewable Energy, Elsevier, vol. 94(C), pages 197-212.
    • Handle: RePEc:eee:renene:v:94:y:2016:i:c:p:197-212
    DOI: 10.1016/j.renene.2016.03.036
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    References listed on IDEAS

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    Cited by:

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    10. Hafez, A.Z. & Yousef, A.M. & Harag, N.M., 2018. "Solar tracking systems: Technologies and trackers drive types – A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 91(C), pages 754-782.
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    15. Bellos, Evangelos & Tzivanidis, Christos, 2017. "Parametric analysis and optimization of an Organic Rankine Cycle with nanofluid based solar parabolic trough collectors," Renewable Energy, Elsevier, vol. 114(PB), pages 1376-1393.
    16. Hai Wang & Yanxin Hu & Jinqing Peng & Mengjie Song & Haoteng Li, 2021. "Effects of Receiver Parameters on Solar Flux Distribution for Triangle Cavity Receiver in the Fixed Linear-Focus Fresnel Lens Solar Concentrator," Sustainability, MDPI, vol. 13(11), pages 1-21, May.
    17. Ajbar, Wassila & Parrales, A. & Huicochea, A. & Hernández, J.A., 2022. "Different ways to improve parabolic trough solar collectors’ performance over the last four decades and their applications: A comprehensive review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 156(C).
    18. Amit K. Bhakta & Nitesh K. Panday & Shailendra N. Singh, 2018. "Performance Study of a Cylindrical Parabolic Concentrating Solar Water Heater with Nail Type Twisted Tape Inserts in the Copper Absorber Tube," Energies, MDPI, vol. 11(1), pages 1-15, January.
    19. Aichouba, Asma & Merzouk, Mustapha & Valenzuela, Loreto & Zarza, Eduardo & Kasbadji-Merzouk, Nachida, 2018. "Influence of the displacement of solar receiver tubes on the performance of a parabolic-trough collector," Energy, Elsevier, vol. 159(C), pages 472-481.
    20. Hou, Yu-tian & Yu, Xiao-hui & Yang, Bin & Liu, Shuai-shuai & Qi, Yao, 2023. "Optical performance investigation on flat receiver for parabolic trough solar collector based on the MCRT method," Renewable Energy, Elsevier, vol. 202(C), pages 525-536.

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