ЎЗБЕКИСТОН ЖАНУБИДАГИ ИҚЛИМ ШАРОИТИДА ҚУЁШ ҲОВУЗИНИНГ ҲАРОРАТ РЕЖИМИНИ ЭКСПЕРИМЕНТАЛ ЎРГАНИШ
Ключевые слова:
Solar pool, radiation, concentration, magnesium chloride, heat exchanger, temperature, reflective glass.Аннотация
This article is devoted to the experimental study of the temperature regimes of the solar pool in the southern climatic conditions of Uzbekistan. Research work in the experimental solar pool was carried out in September 2022. According to the results of the research, it is scientifically based that the temperature of the lower layer of the pool increases by 56℃ at a concentration of 25% of salt water in the solar pool, and the energy collection efficiency of the lower convective zone of the solar pool increases in parallel with the increase of solar radiation.
Библиографические ссылки
Ўзбекистон Республикаси Президентининг 2022 йил 28 январдаги “2022-2026 йилларга мўлжалланган янги ўзбекистоннинг тараққиёт стратегияси тўғрисида”ги ПФ-60-сонли фармони.
Uzakov G. N., Elmurodov N. S., Davlonov X. A. Experimental study of the temperature regime of the solar pond in the climatic conditions of the south of Uzbekistan //IOP Conference Series: Earth and Environmental Science. – IOP Publishing, 2022. – Т. 1070. – №. 1. – С. 012026.
Элмуродов Н. С. и др. Cузиш бассейнларининг энергия баланси таҳлили //Инновацион технологиялар. – 2022. – Т. 3. – №. 3 (47). – С. 21-27.
Prasad A. R. Mathematical Model of a Salinity Gradient Solar Pond. – 2016.
https://uz.wikipedia.org/wiki/Dehqonobod_kaliy_zavodi
Осадчий Г. Б. Энергосбережение и возможности установок и систем малой энергетики на базе солнечного соляного пруда (Введение в проект «Альтернативная энергетика») //Омск-2012. – 2012.
Valderrama, C., Cortina, J. L., Akbarzadeh, A., Bawahab, M., Faqeha, H., & Date, A. (2022). Solar ponds. In Storing Energy (pp. 537-558). Elsevier.