References
- Aguilar-Jimenez J.A., Hernandez-Callejo L., Alonso-Gomez V.; Velazquez N.; Lopez-Zavala R.; Acuna A.; Mariano-Hernandez D., 2020, Techno-economic analysis of hybrid PV/T systems under different climate scenarios and energy tariffs, Sol. Energy, 212, 191–202.
- Al-Amri F.G., Abdelmagid T.I.M., 2021, Analytical model for the prediction of solar cell temperature for a high-concentration photovoltaic system, Elsevier, volume 25, 100890.
- Arifin Z., Suyitno S.,Tjahjana D., Juwana W.E., Putra M.R.A., Prabowo A.R., 2020, The Effect of Heat Sink Properties on Solar Cell Cooling Systems, Appl. Sci., 10, 7919.
- Barkat F., Cheknane A., Guerrero J.M., Lashab A., Istrate M., Banu I.V., 2020, Hybrid islanding detection technique for single-phase grid-connected photovoltaic multi-inverter systems, IET Renewable Power Generation, vol. 14, nr. 18, pp. 3864-3880.
- Bica M., 2019, Photovoltaic system, course support, Bucharest.
- Borawski P., Holden L., Beldycka-Borawska A., 2023, Perspectives of photovoltaic energy market development in the European Union, Elsevier Energy, vol. 270, pp. 6.
- Gomaa M.R.; Hammad W.; Al-Dhaifallah M.; Rezk H., 2020, Performance enhancement of grid-tied PV system through proposed design cooling techniques: An experimental study and comparative analysis, Sol. Energy, 211, 1110–1127.
- Ghosh S., Yadav R., 2021, Future of photovoltaic technologies: A comprehensive review. Sustain. Energy Technol. Assess.; 47:101410. doi: 10.1016/j.seta.2021.101410.
- Hudişteanu S.V., Cherecheş N.C., Chaimae El Fouas, Bekkay Hajji, Ţurcanu E.F., Cherecheş M.L., 2022, Numerical and parametric analysis for enhancing performances of water photovoltaic/thermal system, Applied sciences 12 (2): 645.
- Hudişteanu S.V., Cherecheş N.C., Verdeş M., Ciocan V., Popovici C.G., Ţurcanu F.E., Bălan M., 2021, Analysis of an innovative water-cooling solution for photovoltaic-thermal systems, Faculty of Civil Engineering and Building Services, Gheorghe Asachi Technical University of Iasi.
- Hudişteanu S.V., Mateescu T.D., Popovici C.G., 2015, Comparative study of water film heat exchangers for cooling photovoltaic panels, Bulletin of the Transilvania University of Braşov.
- Hudişteanu S.V., Ţurcanu F.E., Cherecheş N.C., Popovici C.G., Verdeş M., 2022, Effect of wind direction and velocity on PV panels cooling with perforated heat sinks, Applied sciences 12 (19): 9665.
- Hudişteanu S.V., Ţurcanu F.E., Cherecheş N.C., Popovici C.G., Verdeş M., Hudişteanu I, 2021, Enhancement of PV panel power production by passive cooling using heat sinks with perforated fins, Applied Sciences 11 (23): 113213.
- Hudişteanu S V, Popovici C G, Verdeş M, Ciocan V, Ţurcanu F. E., 2020, Case study on the efficiency improvement of photovoltaic panels by cooling, Techniumvol 2, pp. 85-90.
- Hudişteanu S.V., Cherecheș N.C., Popovici G.C., Verdeș M., Ciocan V., Balan M.C., Țurcanu F.E., Scurtu I.C., 2021, Effect of cooling on power generated by photovoltaic panels; IOP Conference Series: Materials Science and Engineering; vol. 1141.
- Irena, 2021, https://publications.jrc.ec.europa.eu/repository/handle/JRC11805, view at 01.02.2024.
- Johnston E., Szabo P.S.B., Bennett N.S., 2021, Cooling silicon photovoltaic cells using finned heat sinks and the effect of inclination angle, Therm. Sci. Eng. Prog., 23, 100902.
- Math V.B., Sheregar A., Kavitha G., 2015, Study of temperature differential in different concrete slabs of varying slab thickness in different regions, European Journal of Applied Engineering and Scientific Research, 4 (2):35-43.
- Selimli S, Dumrul H, Yilmaz S, Akman O, 2021, Experimental and numerical analysis of energy and exergy performance of photovoltaic thermal water collectors, Solar Energy, volume 228, pages 1-11.
- Sornek K., Goryl W., Figaj R., Dabrowska G., Brezden J., 2022, Development and Tests of the Water Cooling System Dedicated to Photovoltaic Panels, Department of Sustainable Energy Development, Faculty of Energy and Fuels, AGH University of Science and Technology, Mickiewicza Ave. 30, 30-059 Krakow, Poland.