Energetic analysis of semi-transparent photovoltaic module

¹ Doctoral School of Mechanical Engineering, Institute of Mathematics and Basic Science
² Institute of Technology, Hungarian University of Agriculture and Life Sciences, Páter K. u. 1., Gödöllő, H-2100 Hungary
³ Mechanical Engineering Department, Institut Teknologi Nasional Bandung, Jl. PH. H. Mustofa No 23 Kota Bandung, 40124, Jawa Barat, Indonesia

^* Corresponding author: Anggraeni.Nuha.Desi@phd.uni-mate.hu

Abstract

Alternatives to traditional fossil-based energy generation are required to combat climate change and air pollution. Solar power has become increasingly appealing due to its infinite supply, ability to mitigate climate change, and non-polluting nature. The semi-transparent photovoltaics have a portion of the cell that allows light to pass through while the rest of the cell generates electricity. Energy analysis on semi-transparent photovoltaic is needed to determine their performance. The studied semi-transparent photovoltaic systems consist of ten modules combined in one panel and two separate panels. The system consists of 2x10 pieces 165 Wp Solarwatt Vision modules with 3,3 kWp capacity. The installation site’s location is the latitude 47.5946° N, 19.3619° E. The energy production of semi-transparent photovoltaics: The highest energy production per year was found in 2018 with a value of 3.18 MWh, followed by 2019, 2021, 2020, and 2017 with values of 2.76 MWh, 2.5 MWh, 2.31 MWh, and 1.68 MWh, respectively. The highest monthly energy production is found in April, May, June, and July, with values of 445618 Wh, 459812 Wh, 442955 Wh, and 496671 Wh, respectively. The further plan is to study PAR components under the modules.