RESEARCH ON THE EFFICIENCY OF A SOLAR POND WITH A FLAT REFLECTOR
Keywords:
solar pond, solar reflector, solar radiation, concentration, solar pond zonesAbstract
This article presents the results of a study conducted to determine the thermal
efficiency of a solar pond device in the city of Kashi. Experiments were conducted with and without
solar reflectors to increase the concentration of solar energy on the surface of a 25% saline solar
pond. Collecting solar radiation energy and converting it into useful thermal energy is an important
factor in the operation of a solar pond. The temperatures of the lower zone of the solar pond with
and without reflectors were 46 °C and 52 °C, respectively. In the course of the research work, the
possibility of increasing the energy efficiency of the lower convective zone of the solar pond to 6-8%
using solar reflectors was scientifically justified based on the experimental results
References
Uzakov G.N., Elmurodov N.S. and 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 1070 012026 (2022)
Qarroot, A. W. Using Solar Evaporation Ponds for the Treatment of the Desalination Plants
Brine. Thesis Topic (Doctoral dissertation, Islamic University–Gaza) (2015).
Rizvi, R. Z., Jamal, Y., Ghauri, M. B., Salman, R., and Khan, I. Solar pond technology for brine
management and heat extraction: a critical review. Journal of Faculty of Engineering &
Technology, 22(2), 69-79. (2015).
Abbood M. H., Alhwayzee M., Sultan M. A. H. Experimental Investigation for the Solar Pond
Performance with and Without Reflector Mirrors and Tracking System in Kerbela City of Iraq.
Design Engineering. С. 7247-7254. (2021)
Kanan, S. M. J. A. Modelling of a solar pond as a combined heat source and store to drive an
absorption cooling system for a building in Iraq. The University of Manchester (United
Kingdom). (2017).
Ito, M., & Azam, S. Feasibility of Saline Gradient Solar Ponds as Thermal Energy Sources in
Saskatchewan, Canada. J. Environ. Inform. Lett, 1, 72-80. (2019).
Elmurodov N.S., Uzakov G. N., Khatamov I. A. and Tilavov Y. S. Investigating the effect of
different salts on the thermal efficiency of a solar pond device. In E3S Web of
Conferences (Vol. 392, p. 02038). EDP Sciences. (2023)
https://world-weather.ru/pogoda/uzbekistan/karshi/sunrise/
Осадчий, Г.Б. Энергосбережение и возможности установок и систем малой энергетики на
базе солнечного соляного пруда. Аналитика и вопросы энергосбережения. Рис, 3. (2012).
Elmurodov N.S. Quyosh hovuzi qurilmasining yuqori konvektiv zonasi issiqlik samaradorligini
hisoblash. Xalqaro ilmiy-amaliy konferensiya. Buxoro-2022. 218-222.
Uzokov, G., Elmurodov, N., Davlonov, X. (2022). O‘zbekiston janubidagi iqlim sharoitida
quyosh hovuzining harorat rejimini eksperimental o‘rganish. Innovatsion texnologiyalar, 1,
-102.
Uzokov, G.N., Elmurodov, N. S., Axmedov, N. N. (2022). Suzish basseynlarining energiya
balansi tahlili. Innovatsion texnologiyalar, 3(3 (47)), 21-27.
Uzakov, G., Elmurodov, N., Toshboev, A., & Sultonov, S. (2023). Mathematical modeling the
heat balance of a solar pond device. In BIO Web of Conferences (Vol. 71, p. 02023). EDP
Sciences.
Elmurodov, N. S., Davlonov, K. A., & Toshboev, A. R. (2023). Study of the physicochemical
properties of nacl, mgcl2 and kcl salts and their influence on the thermal efficiency of the solar
pond device. Muqobil energetika, 2(02), 52-59.
Элмуродов, Н. С., Очилов, А. О., & Элмуродова, С. С. (2020). Интенсификации отвода
теплоты охлаждающей поверхности баков трансформаторов. Инновационные подходы в
современной науке (pp. 76-82).
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