Solar collectors have emerged as indispensable devices in the realm of renewable energy sources. They serve as pivotal instruments in harnessing solar energy and converting it into clean, sustainable power. This abstract highlights the significance of solar collectors in the context of renewable energy, emphasizing their role in tapping into the abundant and free resource of sunlight, their renewable and sustainable nature, and their diverse applications. Moreover, it discusses the advantages of solar collectors, such as low operating costs, grid independence, and reduced greenhouse gas emissions. Despite some challenges, the future of solar collectors appears promising, driven by technological advancements and supportive government policies. As the world strives to reduce its carbon footprint and transition towards cleaner energy, solar collectors are poised to be instrumental in achieving these goals.

Solar collector, Renewable energy, Solar energy

Mirkomilov, D., & Rakimov, A. (2023). Problems in the management of technological processes. Research and implementation.

Mirkomilov, D. (2023). Effective methods of using simulation models in the lesson. Scientific Impulse, 2(14), 49-51.

Mirkomilov, D. (2023). Prospects for the use of information technologies in the educational system. Educational Research in Universal Sciences, 2(12), 275-278.

Миркомилов, Д., & Муйдинов, М. (2023). Исчезновение профессий искусственным интеллектом. Research and implementation.

Rasulov, A., & Xasanova, M. (2021). Protection system against the infringement of information signals in fiber communication system. Scientific progress, 2(5), 317-316.

Хасанова, М. Ю. (2022, December). Кластеризация возобновляемых источников энергии. In international conferences (Vol. 1, No. 19, pp. 18-21).

Хасанова, М. (2021). Применение солнечных коллекторов в Узбекистане. Scientific progress, 2(8), 952-957.

Горовик, А. А., Лазарева, М. В., Нематова, С. А., & Хасанова, М. Ю. (2020). Базовые основы методики преподавания визуального программирования для школьников. Universum: технические науки, (4-1 (73)), 30-33.

Учкун, Ф., & Хасанова, М. Ю. (2023). Совершенствование методов автоматизация обработки данных в условиях производственного предприятие.

Расулов, А. Х., & Хасанова, М. (2022). Система защиты в системе волоконной связи c использованием нейронных сетей. Educational Research in Universal Sciences, 1(6), 241-250.

M.L. Djalilov. (2023). Exact three-dimensional boundary value problem for piecewise homogeneous plates. International Journal of Advance Scientific Research, 3(11), 226–231.

Djalilov, M. L. (2023). Equation of transverse vibration of a piecewise homogeneous viscoelastic plate. International Journal of Advance Scientific Research, 3(10), 181-189.

Kholmurodova, D. K., & Ulugboeva, G. O. (2023). Development of an effective technology for producing composite wood-plastic board materials for construction and furniture purposes. Journal of chemistry, 6(4), 9-19.

Kholmurodova, G., Barotova, A., Namazov, S., Yuldasheva, R., & Jumashev, M. (2023). Creation of selected items with high fiber yield and length based on cotton composite hybrids. In E3S Web of Conferences (Vol. 371). EDP Sciences.

Muratovna, D. Z. (2023). " IIK-D1" series corrosion inhibitors production technology. Journal of Modern Educational Achievements, 11(11), 43-50.

Matkarimov, N. X. (2023). The Processes of Building Panel Residential Buildings in the Cities of Uzbekistan (On the Example of Fergana). Journal of Architectural Design, 19, 4-10.