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Hybrid photovoltaic–thermal solar collectors dynamic modeling

Author

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  • Amrizal, N.
  • Chemisana, D.
  • Rosell, J.I.

Abstract

A hybrid photovoltaic/thermal transient model has been developed and validated experimentally. The methodology extends the quasi-dynamic thermal model stated in the EN 12975 in order to involve the electrical performance and consider the dynamic behavior minimizing constraints when characterizing the collector. A backward moving average filtering procedure has been applied to improve the model response for variable working conditions. Concerning the electrical part, the model includes the thermal and radiation dependences in its variables. The results revealed that the characteristic parameters included in the model agree reasonably well with the experimental values obtained from the standard steady-state and IV characteristic curve measurements. After a calibration process, the model is a suitable tool to predict the thermal and electrical performance of a hybrid solar collector, for a specific weather data set.

Suggested Citation

  • Amrizal, N. & Chemisana, D. & Rosell, J.I., 2013. "Hybrid photovoltaic–thermal solar collectors dynamic modeling," Applied Energy, Elsevier, vol. 101(C), pages 797-807.
    • Handle: RePEc:eee:appene:v:101:y:2013:i:c:p:797-807
    DOI: 10.1016/j.apenergy.2012.08.020
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    References listed on IDEAS

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    1. Kumar, Rakesh & Rosen, Marc A., 2011. "A critical review of photovoltaic–thermal solar collectors for air heating," Applied Energy, Elsevier, vol. 88(11), pages 3603-3614.
    2. Amrizal, N. & Chemisana, D. & Rosell, J.I. & Barrau, J., 2012. "A dynamic model based on the piston flow concept for the thermal characterization of solar collectors," Applied Energy, Elsevier, vol. 94(C), pages 244-250.
    3. Solanki, S.C. & Dubey, Swapnil & Tiwari, Arvind, 2009. "Indoor simulation and testing of photovoltaic thermal (PV/T) air collectors," Applied Energy, Elsevier, vol. 86(11), pages 2421-2428, November.
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    14. Kumar, Anil & Baredar, Prashant & Qureshi, Uzma, 2015. "Historical and recent development of photovoltaic thermal (PVT) technologies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 42(C), pages 1428-1436.
    15. Cuce, Erdem & Cuce, Pinar Mert & Bali, Tulin, 2013. "An experimental analysis of illumination intensity and temperature dependency of photovoltaic cell parameters," Applied Energy, Elsevier, vol. 111(C), pages 374-382.
    16. Julia Marín-Sáez & Daniel Chemisana & Álex Moreno & Alberto Riverola & Jesús Atencia & María-Victoria Collados, 2016. "Energy Simulation of a Holographic PVT Concentrating System for Building Integration Applications," Energies, MDPI, vol. 9(8), pages 1-19, July.
    17. Vivek Kumar & Amit Kumar & Hrishikesh Dhasmana & Abhishek Verma & PK Bhatnagar & VK Jain, 2018. "Efficiency enhancement of silicon solar cells using highly porous thermal cooling layer," Energy & Environment, , vol. 29(8), pages 1495-1511, December.
    18. Herrando, María & Markides, Christos N. & Hellgardt, Klaus, 2014. "A UK-based assessment of hybrid PV and solar-thermal systems for domestic heating and power: System performance," Applied Energy, Elsevier, vol. 122(C), pages 288-309.
    19. Pang, Wei & Zhang, Qian & Cui, Yanan & Zhang, Linrui & Yu, Hongwen & Zhang, Xiaoyan & Zhang, Yongzhe & Yan, Hui, 2019. "Numerical simulation and experimental validation of a photovoltaic/thermal system based on a roll-bond aluminum collector," Energy, Elsevier, vol. 187(C).
    20. Gaur, Ankita & Tiwari, G.N., 2014. "Performance of a-Si thin film PV modules with and without water flow: An experimental validation," Applied Energy, Elsevier, vol. 128(C), pages 184-191.
    21. Klemen Sredenšek & Sebastijan Seme & Bojan Štumberger & Miralem Hadžiselimović & Amor Chowdhury & Zdravko Praunseis, 2021. "Experimental Validation of a Dynamic Photovoltaic/Thermal Collector Model in Combination with a Thermal Energy Storage Tank," Energies, MDPI, vol. 14(23), pages 1-21, December.
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