PHOTOVOLTAIC POWER PLANTS WITH TRACKER SYSTEMS
Keywords:
Keywords: Tracker system, photovoltaic energy, solar panels, electrical energy, solar radiation, efficiency, photovoltaic power plant, single-axis tracker, dual-axis tracker, solar tracking system, photovoltaic conversion, energy efficiency, tracker motors, solar radiation optimization, static and dynamic panels, electricity generation, batteries and accumulators, tracker control system, automated solar tracking, advantages of tracker systems, photonic energy absorption, climate conditions and solar energy, investment and economic efficiency, environmental impact.Abstract
Abstract: This article provides a detailed overview of the operating principle,
advantages, disadvantages, and application areas of photovoltaic power plants with
tracker systems. Photovoltaic technology and tracker systems are examined separately,
highlighting their role and efficiency in the energy sector. Tracker-based photovoltaic
power plants represent a modern technology designed to utilize solar energy more
efficiently. These systems automatically adjust the position of solar panels in
accordance with the movement of the sun, thereby optimizing the energy production
process. There are single-axis and dual-axis tracker systems, both of which aim to
increase electricity generation by maximizing solar radiation capture.
References
REFERENCES
1. Yusupov Abdurashid Khamidillaevich. (2025). THE PHYSICAL ESSENCE OF
THE VOLT-AMPERE CHARACTERISTICS OF SOLAR CELLS. World
Scientific Research Journal, 38(1), 387–391. Retrieved from
https://inlibrary.uz/index.php/wsrj/article/view/93407
2. Yusupov Abdurashid Khamidillaevich, & Oripova Dilnoza Karimjon kizi. (2025).
TYPES OF PHOTOVOLTAIC CELLS AND THEIR EFFICIENCY. World
Scientific Research Journal, 38(1), 392–397. Retrieved from
https://inlibrary.uz/index.php/wsrj/article/view/93406
3. Yusupov Abdurashid Khamidillaevich, & Yuldasheva Saodatkhon Sultonbek kizi.
(2024). APPLICATION OF PHOTOVOLTAIC EFFECTS TO ENERGY SAVING
MATERIALS. Лучшие интеллектуальные исследования, 21(2), 62–68.
Retrieved from https://web-journal.ru/journal/article/view/5316
4. Yusupov Abdurashid Khamidullayevich, & Khakimov Ulugbek ogli. (2024).
DEVICES COLLECTING SUNLIGHTS. Лучшие интеллектуальные
исследования, 21(1), 193–199. Retrieved from https://web-
journal.ru/journal/article/view/5297
5. Yusupov Abdurashid Khamidillaevich, & Artikov Dilshodbek Xushbakjon ogli.
(2024). APPEARANCE OF PHOTOVOLTAIC EFFECT IN POLYCRYSTAL
SILICON BASED RECEIVER. Лучшие интеллектуальные
исследования, 21(1), 179–186. Retrieved from https://web-
journal.ru/journal/article/view/5295
6. Yusupov Abdurashid Khamidullayevich, & Rozmamatov Oybek Dilshodbek ogli.
(2024). OBTAINING ELECTRICAL ENERGY USING DEVICES
COLLECTING SUNLIGHTS. Лучшие интеллектуальные исследования, 21(1),
187–192. Retrieved from https://web-journal.ru/journal/article/view/5296
7. Yusupov Abdurashid Khamidullayevich, & Artikov Dilshodbek Khushbaqjon ogli.
(2024). PHOTOVOLTAIC EFFECTS AND THEIR EFFECTIVE USE. Лучшие
интеллектуальные исследования, 14(2), 21–27. Retrieved from https://web-
journal.ru/journal/article/view/2884
8. Yusupov Abdurashid Xamidullayevich, & Qodiraliyev Nursaid Botirali o`g`li.
(2024). QUYOSH SPEKTRI VA FOTOELEKTRIK MATERIALINING
YUTILISH SPEKTRI O‘RTASIDAGI NOMUVOFIQLIKNING TA’SIRINI KAMAYTIRISH. Лучшие интеллектуальные исследования, 14(2), 64–71.
Retrieved from https://web-journal.ru/journal/article/view/2891
9. Yusupov Abdurashid Xamidullayevich, & Yuldasheva Saodatkhan Sultanbek kizi.
(2024). PPLICATION OF PHOTOVOLTAIC EFFECTS TO ENERGY-SAVING
MATERIALS COMPONENTS OF THE STRUCTURE AND SOLAR CELLS.
Лучшие интеллектуальные исследования, 14(2), 105–109. Retrieved from
http://web-journal.ru/index.php/journal/article/view/2897
10. Kodirov, D., Makhmudov, V., Normuminov, J., Shukuraliev, A., Begmatova, N.,
& Abdurashid, Y. (2024). Determination of the optimal angle for high efficiency of
solar panels in Uzbekistan. In E3S Web of Conferences (Vol. 563, p. 01008). EDP
Sciences.
11. Khamidillaevich, Y. A., & Abdumalik, T. (2024). HIGH TEMPERATURE
SOLAR CONCENTRATORS. Лучшие интеллектуальные исследования, 21(1),
200-206.
12. Юсупов Абдурашид Хамидиллаевич, & Хамдамова Наргизой
Хамидуллаевна. (2024). ЭЛЕКТРОМАГНИТ ИНДУКЦИЯ МАВЗУСИНИ
ИНТЕРФАОЛ МЕТОДЛАР БИЛАН ЎҚИТИШ. PEDAGOGS, 48(1), 43–50.
Retrieved from https://pedagogs.uz/index.php/ped/article/view/575
13. THE EFFICIENCY OF SOLAR PANELS DEPENDS ON CLIMATIC
CONDITIONS. (2025). Лучшие интеллектуальные исследования, 46(5), 41-
46. https://scientific-jl.com/luch/article/view/20066
14. OBTAINING ELECTRICITY FROM SOLAR PANELS AND INCREASING
THEIR EFFICIENCY. (2025). Лучшие интеллектуальные исследования, 46(5),
36-40. https://scientific-jl.com/luch/article/view/20065
15. QUYOSH KONSENTRATORLARI. (2025). Лучшие интеллектуальные
исследования, 46(3), 211-218. https://scientific-jl.com/luch/article/view/19713
16. BASIC PARAMETERS OF THERMOELECTRIC MATERIALS.
(2025). Лучшие интеллектуальные исследования, 46(3), 81-
92. https://scientific-jl.com/luch/article/view/19431
17. MOLECULAR BEAM EPITAXY. (2025). Лучшие интеллектуальные
исследования, 46(3), 70-80. https://scientific-jl.com/luch/article/view/19430
18. FIELDS OF APPLICATION OF PHOTOVOLTAIC CELLS BASED ON
ORGANIC MATERIALS. (2025). Лучшие интеллектуальные
исследования, 36(1), 81-87. https://scientific-jl.org/luch/article/view/8351
19. Oripova Dilnoza Karimjon kizi, & Yusupov Abdurashid Khamidillaevich. (2024).
PHENOMENON OF PHOTO EFFECT IN SEMICONDUCTORS. JOURNAL OF
NEW CENTURY INNOVATIONS, 67(4), 132-137. https://scientific-
jl.org/new/article/view/7623
