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Analiza charakterystyki paneli słonecznych na dachówkach ceramicznych i ceramicznych
Języki publikacji
Abstrakty
In general, the PLTS Rooftop installation only considers the power capacity to be installed and the available roof area. It does not consider the type of roof material where it is installed. Meanwhile, the roof of the house has the absorption of sunlight and different thermal properties depending on the type of roofing material. In this study, the objective of this research is to observe the temperature characteristics between solar panels and roofs from 2 types of materials, namely clay tile and ceramic tile, in which the influence of the height between the solar panel and the ceiling on the temperature and its effect on the efficiency of the solar panel. Based on the results of this study, the temperature characteristics between the solar panel and the roof (T3) of various types of material have an influence on the efficiency value of the solar panel, where the maximum efficiency value is obtained for clay tile material at a temperature (T3) of 33.77⁰C of 4.22% and ceramic tile at temperature (T3) 33.51⁰C at 5.69%.
Ogólnie rzecz biorąc, instalacja PLTS Rooftop uwzględnia tylko moc do zainstalowania i dostępną powierzchnię dachu. Nie uwzględnia rodzaju pokrycia dachowego, na którym jest zainstalowany. Tymczasem dach domu charakteryzuje się pochłanianiem światła słonecznego i różnymi właściwościami termicznymi w zależności od rodzaju pokrycia dachowego. W niniejszym opracowaniu celem tych badań jest obserwacja charakterystyki temperaturowej pomiędzy panelami słonecznymi a dachami z 2 rodzajów materiałów tj. dachówka ceramiczna i dachówka ceramiczna, w których wpływ wysokości pomiędzy panelem słonecznym a sufitem na temperaturę i jego wpływ na wydajność panelu słonecznego. Na podstawie wyników tych badań na wartość sprawności panelu słonecznego wpływa charakterystyka temperaturowa pomiędzy panelem słonecznym a dachem (T3) z różnych materiałów, gdzie maksymalną wartość sprawności uzyskuje się dla materiału z dachówki ceramicznej przy temperatura (T3) 33,77⁰C 4,22% i płytka ceramiczna w temperaturze (T3) 33,51⁰C 5,69%.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
39--45
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
autor
- Department of Mechanical Engineering, Energy Power Plant Engineering, State Polytechnic of Ujung Pandang
autor
- Department of Mechanical Engineering, Energy Power Plant Engineering, State Polytechnic of Ujung Pandang
autor
- Department of Mechanical Engineering, Energy Power Plant Engineering, State Polytechnic of Ujung Pandang
Bibliografia
- [1] M. Świderski, "Solar Power Plant with Distributed System ofPV Panels," Przegląd Elektrotechniczny, vol. 1, pp. 57-60, 2/05 2019.
- [2] J. Peng and L. Lu, "Investigation on the development potential of rooftop PV system in Hong Kong and its environmental benefits," Renewable and Sustainable Energy Reviews, vol. 27, pp. 149-162, 2013.
- [3] S. Castellanos, D. A. Sunter, and D. M. Kammen, "Rooftop solar photovoltaic potential in cities: how scalable are assessment approaches?," Environmental Research Letters, vol. 12, p. 125005, 2017.
- [4] H. NA, "Potency of solar energy applications in Indonesia,"International Journal of Renewable Energy Development, vol. 1, pp. 33-38, 2012.
- [5] E. Tarigan, "Simulation and feasibility studies of rooftop PV system for university campus buildings in Surabaya, Indonesia," International Journal of Renewable Energy Research, vol. 8, pp. 895-908, 2018.
- [6] M. F. Hakim, " Design of Rooftop Off Grid Solar Panels in Residential Homes as an Alternative Source of Electrical Energy," Dinamika DotCom, 2017.
- [7] D. S. Mintorogo, " Strategy for the application of solar cells (photovoltaic cells) in residential and commercial buildings," DIMENSI (Journal of Architecture and Built Environment), vol. 28, 2000.
- [8] S. Syafii, N. Novizon, W. Wati, and D. Juliandri, "Feasibility Study of Rooftop Grid Connected PV System for Peak Load Reduction," Proceeding of the Electrical Engineering Computer Science and Informatics, vol. 5, pp. 231-235, 2018.
- [9] Y. Kotak, E. Gago, P. Mohanty, and T. Muneer, "Installation of roof-top solar PV modules and their impact on building cooling load," Building Services Engineering Research & Technology, vol. 35, 2014.
- [10] H. Altan, Z. Alshikh, V. Belpoliti, Y. K. Kim, Z. Said, and M. Alchaderchi, "An experimental study of the impact of cool roof onsolar PV electricity generations on building rooftops in Sharjah, UAE," International Journal of Low-Carbon Technologies, vol. 14, pp. 267-276, 2019.
- [11] F. Salamanca, M. Georgescu, A. Mahalov, M. Moustaoui, and A. Martilli, "Citywide impacts of cool roof and rooftop solar photovoltaic deployment on near-surface air temperature and cooling energy demand," Boundary-Layer Meteorology, vol. 161, pp. 203-221, 2016.
- [12] A. S. Alghamdi, "Potential for Rooftop-Mounted PV Power Generation to Meet Domestic Electrical Demand in Saudi Arabia: Case Study of a Villa in Jeddah," Energies, vol. 12, p. 4411, 2019.
- [13] A. Rahmat, E. Prianto, and S. B. Sasongko, "Study Of The Influence Of Roof Covering Materials On Thermal Conditions In The Ata Room," Jurnal Arsitektur ARCADE, vol. 1, pp. 35-40, 2017.
- [14] E. Selparia, M. Ginting, and R. Syech, " Manufacturing And Testing Of Tools To Determine The Conductivity Of Zinc Plates, Multiroof And Asbestos," Riau University.
- [15] A. Dominguez, J. Kleissl, and J. C. Luvall, "Effects of solar photovoltaic panels on roof heat transfer," Solar Energy, vol. 85, pp. 2244-2255, 2011.
- [16] S. Odeh, "Thermal performance of dwellings with rooftop pvpanels and pv/thermal collectors," Energies, vol. 11, p. 1879, 2018.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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