Development of models of the maximum power of the solar energy tracking system based on a photopanel
Satybaldiyeva F. Beisembekova R. Saribayev A. Yessenbekova G.Zh. Kultas A.
31 March 2021Little Lion Scientific
Journal of Theoretical and Applied Information Technology
2021#99Issue 61402 - 1413 pp.
Solar tracking system is the most common method to improve the efficiency of solar PV modules. This study presents the energy conversion efficiency of a PV module with a solar PV module tracking system. The proposed model of the solar tracking system uses MPT. With the help of the MPT, the solar panel becomes more energy efficient, and with the use of the tracking system it is more sensitive to the suns rays, and this allows for a more accurate detection of the sun location. A comparative analysis was carried out between a stationary PV module and a PV module with a tracking system. The results showed that a two-axis solar tracking system power production has increased by a total of 1.5%. compared to power produced by stationary PV module. Additionally, the average efficiency of our PV module varies within 12-20%. But still, in the age of rapid development of science and technology, these indicators are not the limit. There are a number of alternative ways to increase these numbers which many scientists from different countries are working hard. In our study, in order to increase the efficiency of the photo module, we considered the optimization of the production of a solar battery with tracking system, which should track the Sun. Because the incidence of the sun rays on the surface of the panel at 90 degrees increases the efficiency of the production of PV modules. The article considers the software and hardware for the control of the solar panel with a rotating mechanism, and solves scientific and applied problems for mathematical modeling and information support of the photo panel (PP) with a solar control system in order to increase PP energy efficiency. The photo panel model was implemented in the Lab View MatLab software package through the Matlab block library.
Maximum power generation technology (MPT) , Photopanel , Solar energy , Support rotary mechanism (SRM)
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Satbayev University, Almaty, Kazakhstan
KazNAA of Zhurgenov, Almaty, Kazakhstan
Satbayev University
KazNAA of Zhurgenov
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