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Information × Registration Number 0222U005327, 0121U107731 , R & D reports Title Autonomous hybrid photoenergy unit with intellectual power take-off system popup.stage_title Head Zaitsev Roman V., Доктор технічних наук Registration Date 27-12-2022 Organization National Technical University "Kharkiv Polytechnic Institute" popup.description2  The report considers photovoltaic systems (PV), which are one of the most promising systems of renewable energy sources. The electricity produced by photovoltaic panels has great potential, but also has technological shortcomings that do not allow obtaining maximum efficiency. The aim of our study is to reduce technological shortcomings, which will increase the service life of photovoltaic systems and the amount of electricity received. The obtained model allows taking into account the technical parameters that take into account the heat loss and thermal resistance of the absorber plate. The results of the calculations performed coincide with the experimental data. The main aim of proposed research is to consider a method for increasing the efficiency and the lifetime of photovoltaic systems. The research methods presents theoretical methods for increasing the efficiency of such systems, as well as increasing the service life, by simulating the cooling parameters of the absorber surface of such systems and tracking the maximum power. Modeling and the obtained theoretical model will allow in the future selecting the most suitable technical solutions to maximize the energy output of photovoltaic systems for various design solutions. A constructive and technological solution of a photo-energy system with flexible PVs based on cadmium telluride is proposed, which makes it possible to obtain the total efficiency of such a system up to 73% by converting solar energy into thermal and electrical energy. The installation of the solar module is carried out due to heat-conducting glue, which has a high thermal conductivity at the level of 1.2 W/(m·K) and sufficient tensile strength - about 15 kg/cm2. Product Description popup.authors Voitovych Yurii S. Vorobiov Bohdan V Konotopska Natalia V Minakova Kseniia O Khrypunov Maksym Maksym H Shkoda Dmytro S popup.nrat_date 2022-12-27 Close