Year 2021,
, 8 - 13, 15.04.2021
Halil Erol
,
Mahmut Uçman
Zehan Kesilmiş
References
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- 8. Bianchini, A., A. Guzzini, M. Pellegrini, and C. Saccani, Photovoltaic/thermal (PV/T) solar system: Experimental measurements, performance analysis and economic assessment. Renewable Energy, 2017. 111: p. 543-555.
- 9. Erol, H., M. Uçman, and Z. Kesilmiş, The effect of fan cooling on Photovoltaic Efficiency of PV panels in Osmaniye Environment. Majlesi Journal of Mechatronic Systems, 2017. 6(3): p. 29-33.
- 10. Bahaidarah, H., A. Subhan, P. Gandhidasan, and S. Rehman, Performance evaluation of a PV (photovoltaic) module by back surface water cooling for hot climatic conditions. Energy, 2013. 59: p. 445-453.
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- 12. Huang, G., S.R. Curt, K. Wang, and C.N. Markides, Challenges and opportunities for nanomaterials in spectral splitting for high-performance hybrid solar photovoltaic-thermal applications: A review. Nano Materials Science, 2020. 2(3): p. 183-203.
- 13. Ren, X., J. Li, M. Hu, G. Pei, D. Jiao, X. Zhao, and J. Ji, Feasibility of an innovative amorphous silicon photovoltaic/thermal system for medium temperature applications. Applied Energy, 2019. 252: p. 113427.
- 14. Matias, C.A., L.M. Santos, A.J. Alves, and W.P. Calixto, Electrical performance evaluation of PV panel through water cooling technique. 2016 IEEE 16th International Conference on Environment and Electrical Engineering (Eeeic), 2016. Florence, Italy.
- 15. Matias, C.A., L.M. Santos, A.J. Alves, and W.P. Calixto, Increasing photovoltaic panel power through water cooling technique. Transactions on Environment and Electrical Engineering, 2017. 2(1): p. 60-66.
- 16. Hui, G., Q. Da-yong, W. Yue-hu, Z. Yu-ming, and Z. Yi-men. The intermediate semiconductor layer for the ohmic contact to silicon carbide by Germanium implantation. in Junction Technology, 2008. IWJT '08. Extended Abstracts - 2008 8th International workshop on. 2008.
- 17. Gaikwad, K. and S. Lokhande. Novel maximum power point tracking (MPPT) algorithm for solar tree application. in 2015 International Conference on Energy Systems and Applications. 2015.
- 18. Kesilmiş, Z., H. Erol, and M. Uçman, Power optimization in partially shaded photovoltaic systems. Tehnički glasnik, 2018. 12: p. 34-38.
- 19. Rosell, J.I. and M. Ibáñez, Modelling power output in photovoltaic modules for outdoor operating conditions. Energy Conversion and Management, 2006. 47(15): p. 2424-2430.
- 20. Uçman, M., Fotovoltaik termal (FV/T) ve bina entegreli FV/T (BIPV/T) sistemlerde akışkan kullanımının elektriksel karakteristik üzerine etkisinin incelenmesi in Electrical and Electronics Engineering. 2017, Osmaniye Korkut Ata University: Turkey. p. 111.
Water cooled PV panel efficiency in Osmaniye environment
Year 2021,
, 8 - 13, 15.04.2021
Halil Erol
,
Mahmut Uçman
Zehan Kesilmiş
Abstract
In this study, the electrical and thermal efficiency of the natural convection water-cooled photovoltaic panel (PV) is compared with the standard PV module. PV modules are made up of polycrystalline solar cells. As it is known that, an increase in PV panel temperature results in a decrease in electrical efficiency. The aim of this study is to increase PV panel electrical efficiency. PV panel characteristic values such as air/PV panel temperature, solar radiation, voltage, current, and power are recorded for both panels to the computer simultaneously. The thermal and electrical energy performance of PV panels are analyzed comparatively. The results are presented in detail. The water circulation structure is mounted under the PV module by using a glue that has good heat conductivity. The structure contains an S-shaped pipe and a plate made of copper. The plate is used for better heat absorption from the PV panel which is mounted downside of the panel with glue. The efficiency of the PV module with having a proposed cooling system and normal PV module is analyzed. For the overall efficiency, it is observed that the water-cooled PV system is better than the standard PV module by % 6.2.
References
- 1. Bulbul, S., G. Ertuğrul, and F. Arli, Investigation of usage potentials of global energy systems. International Advanced Researches and Engineering, 2018. 2(1): p. 58-67.
- 2. Fuqiang, W., C. Ziming, T. Jianyu, Y. Yuan, S. Yong, and L. Linhua, Progress in concentrated solar power technology with parabolic trough collector system: A comprehensive review. Renewable and Sustainable Energy Reviews, 2017. 79: p. 1314-1328.
- 3. Xu, J., C.C. Boyd, Z.J. Yu, A.F. Palmstrom, D.J. Witter, B.W. Larson, R.M. France, J. Werner, S.P. Harvey, E.J. Wolf, W. Weigand, S. Manzoor, M.F.A.M. van Hest, J.J. Berry, J.M. Luther, Z.C. Holman, and M.D. McGehee, Triple-halide wide–band gap perovskites with suppressed phase segregation for efficient tandems. Science, 2020. 367(6482): p. 1097-1104.
- 4. Fiducia, T.A.M., B.G. Mendis, K. Li, C.R.M. Grovenor, A.H. Munshi, K. Barth, W.S. Sampath, L.D. Wright, A. Abbas, J.W. Bowers, and J.M. Walls, Understanding the role of selenium in defect passivation for highly efficient selenium-alloyed cadmium telluride solar cells. Nature Energy, 2019. 4(6): p. 504-511.
- 5. Ali, H.M., Recent advancements in PV cooling and efficiency enhancement integrating phase change materials based systems – A comprehensive review. Solar Energy, 2020. 197: p. 163-198.
- 6. Shafique, M., X. Luo, and J. Zuo, Photovoltaic-green roofs: A review of benefits, limitations, and trends. Solar Energy, 2020. 202: p. 485-497.
- 7. Kumar, P., A.K. Shukla, K. Sudhakar, and R. Mamat, Experimental exergy analysis of water-cooled PV module. International Journal of Exergy, 2017. 23(3): p. 197-209.
- 8. Bianchini, A., A. Guzzini, M. Pellegrini, and C. Saccani, Photovoltaic/thermal (PV/T) solar system: Experimental measurements, performance analysis and economic assessment. Renewable Energy, 2017. 111: p. 543-555.
- 9. Erol, H., M. Uçman, and Z. Kesilmiş, The effect of fan cooling on Photovoltaic Efficiency of PV panels in Osmaniye Environment. Majlesi Journal of Mechatronic Systems, 2017. 6(3): p. 29-33.
- 10. Bahaidarah, H., A. Subhan, P. Gandhidasan, and S. Rehman, Performance evaluation of a PV (photovoltaic) module by back surface water cooling for hot climatic conditions. Energy, 2013. 59: p. 445-453.
- 11. Clean energy revıews. [cited 2020 29 June]; Available from: https://www.cleanenergyreviews.info/blog/most-efficient-solar-panels.
- 12. Huang, G., S.R. Curt, K. Wang, and C.N. Markides, Challenges and opportunities for nanomaterials in spectral splitting for high-performance hybrid solar photovoltaic-thermal applications: A review. Nano Materials Science, 2020. 2(3): p. 183-203.
- 13. Ren, X., J. Li, M. Hu, G. Pei, D. Jiao, X. Zhao, and J. Ji, Feasibility of an innovative amorphous silicon photovoltaic/thermal system for medium temperature applications. Applied Energy, 2019. 252: p. 113427.
- 14. Matias, C.A., L.M. Santos, A.J. Alves, and W.P. Calixto, Electrical performance evaluation of PV panel through water cooling technique. 2016 IEEE 16th International Conference on Environment and Electrical Engineering (Eeeic), 2016. Florence, Italy.
- 15. Matias, C.A., L.M. Santos, A.J. Alves, and W.P. Calixto, Increasing photovoltaic panel power through water cooling technique. Transactions on Environment and Electrical Engineering, 2017. 2(1): p. 60-66.
- 16. Hui, G., Q. Da-yong, W. Yue-hu, Z. Yu-ming, and Z. Yi-men. The intermediate semiconductor layer for the ohmic contact to silicon carbide by Germanium implantation. in Junction Technology, 2008. IWJT '08. Extended Abstracts - 2008 8th International workshop on. 2008.
- 17. Gaikwad, K. and S. Lokhande. Novel maximum power point tracking (MPPT) algorithm for solar tree application. in 2015 International Conference on Energy Systems and Applications. 2015.
- 18. Kesilmiş, Z., H. Erol, and M. Uçman, Power optimization in partially shaded photovoltaic systems. Tehnički glasnik, 2018. 12: p. 34-38.
- 19. Rosell, J.I. and M. Ibáñez, Modelling power output in photovoltaic modules for outdoor operating conditions. Energy Conversion and Management, 2006. 47(15): p. 2424-2430.
- 20. Uçman, M., Fotovoltaik termal (FV/T) ve bina entegreli FV/T (BIPV/T) sistemlerde akışkan kullanımının elektriksel karakteristik üzerine etkisinin incelenmesi in Electrical and Electronics Engineering. 2017, Osmaniye Korkut Ata University: Turkey. p. 111.