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Journal of Solar Energy Research Updates

Articles

Vol. 9 (2022)

Small Solar Installations

DOI
https://doi.org/10.31875/2410-2199.2022.09.08
Submitted
December 15, 2022
Published
2022-12-15

Abstract

Abstract: The paper considers small solar installations, which are developed and created at the Institute of Materials Science of the Academy of Sciences of the Republic of Uzbekistan. The authors of the article operate a Large Solar Furnace with a thermal power of 1000 kW and have extensive experience in operating and building solar high-temperature furnaces. Small solar installations are simple, cheap and easy to operate.

References

  1. Akbarov R.Yu. And Payzullakhanov M.S. Characteristic Features of the Energy Modes of a Large Solar Furnace with a Capacity of 1000 kW. ISSN 0003-701X, Applied Solar Energy, 2018; 54;(2): 99-109. https://doi.org/10.3103/S0003701X18020020
  2. Trombe F. and Le Phat Vinh A. Thousand kW Solar Furnace, bult by the National Center of Scientific Research in Odeillo (France). // Solar Energy, 1973; 15: p. 57-61. https://doi.org/10.1016/0038-092X(73)90006-6
  3. Sh.A. Fayziev, Yu.B. Sobirov. Measurements of Solar Resources in Uzbekistan. Applied Solar Energy, 2017, Vol. 1, pp. 57-60. https://doi.org/10.3103/S0003701X17010054
  4. Yu.B. Sobirov, S. Sh. Makhmudov, Sh.R. Kholov. Energy and resource-saving small solar installations. // Problems of energy and resource saving. 2019; No. 3-4. pp. 325-327.
  5. A.A. Abdurakhmanov, Yu.B. Sobirov, S.Sh. Makhmudov. The role of solar installations in environmental protection. // Yosholimlarahborotnomasi. Tashkent, 2019; 3-4(11): 15-20.
  6. Riskiev TT, Abdurakhmanov AA, Khodjaev RA, Akbarov RY. The outlook for technical hydrogen production inthe big solar furnace. Applied Solar Energy. 2003; 38(4): 49-54.
  7. Abdurakhmanov AA, Akhadov Zh.Z, Mamatkosimov MA. Obtaining hydrogen, electrical and thermal energy using a combined solar heating system. // Geliotekhnika, -2006; №1. pp. 49-54.
  8. A.A. Abdurakhmanov, A. Fazilov, M.M. Mansurov. New opportunities for using solar energy and its conversion into laser radiation energy. / Renewable Energy 2003: Status, Problems, Prospects. St. Petersburg, November 4-6, 2003; pp. 169-175.
  9. Abdurakhmanov AA, Akbarov RYu, Akhadov J, Sarybaev AS, Mamatkosimov MA, Sobirov Yu.B, Yuldashev AK, Sultanov S. Accelerated method of irradiation of polymer electrical insulating materials on the focal plane of the BSF. // Proceedings of the International Conference on Renewable Energy Sources and Heliomaterial Management, -2005; pp. 111-114.
  10. A.A. Abdurakhmanov, Yu.B. Sobirov, M.A. Mamatkosimov and Sh. A. Abdurakhmanov. Synchonous Software Control over 62 heliostats for Enhancing function capabilities of a Big Solar Furnace. // Applied Solar Energy, 2020; 56(5): 404-412. https://doi.org/10.3103/S0003701X20050023
  11. Muhammad S. Paizullakhanov and Rasul Yu. Akbarov. Approaches to Simulation of Interaction of Concentrated Solar Radiation with Materials. Journal of Siberian Federal University. Engineering & Technologies. 2021. Volume 14, No. 3, Pp. 354-358. https://doi: 10.17516/1999-494X-0316
  12. A.A. Abdurakhmanov, R.Yu. Arbarov, and Yu.B. Sobirov. Analysis of operating characteristics of various smelting furnaces on a Large Solar Furnace. // Applied Solar Energy. -USA. 2008; 44(1): 24-27. https://doi.org/10.3103/S0003701X08010088
  13. A.A Abdurakhmanov, R.Yu. Akbarov, Zh. Z. Akhadov, M.A. Mamatkosimov, Yu. B.Sobirov, U.F. Turaeva. Creating melting furnaces based on the large solar furnace. // Applied Solar Energy. -USA. 2008; 44(4): 284-287. https://doi.org/10.3103/S0003701X08040129
  14. Abdurakhmanov A, Zainutdinova KK, Mamatkosimov MA, Paizullakhanov MS, Saragoza G. Solar technologies in Uzbekistan: State, priorities, and perspectives of development // Applied Solar Energy. 2012; 48(2): 84-91. https://doi.org/10.3103/S0003701X1202003X