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Irrigation and Melioration

Abstract

The article presents the experimental results of the study of the parameters of a combined installation photo thermal battery – electric heater, used to provide electric energy and water to rural households. Photo thermal battery is made on the basis of photovoltaic batteries of crystalline silicon with an efficiency of ~ 20 %. Cellular polycarbonate was used as a heat sink. When creating the KU based on photo thermal battery EVN, modern efficient batteries, controllers, inverters and consumers of electric energy were used, and Ariston was chosen as the EVN. KU is adapted to climatic conditions, effectively and reliably provides energy and water in almost all rural regions of the republic.

First Page

62

Last Page

66

References

Аlferov ZH.I., Аndreev V.M., Rumyantsev V.D. Tendentsii i perspektivy razvitiya solnechnoj fotoehnergetiki [Trends and prospects for the development of solar photovoltaics]. FTP, 2004. No.38. Pp.937-947. (in Russian)

Аnarbaev. А.I., Zakhidov R.А., Orlova N.I., Tadzhiev U.А. Razhonirovanie territorii Uzbekistana po kompleksu meteofaktorov, vliyayushhikh na ehffektivnost' raboty solnechnykh sistem goryachego vodosnabzheniya [Zoning of the territory of Uzbekistan by a complex of meteorological factors affecting the efficiency of solar hot water systems]. Geliotekhnika. Tashkent, 2008. No.2. Pp.62-73. (in Russian)

Tursunov M.N., Muminov R.А., Gaziev U.KH., Settarova Z.S., Tukfatullin O.F. Nauchnye i tekhnologicheskie aspekty razrabotki fotoehlektricheskoj ustanovki dlya raboty v usloviyakh zharkogo klimata [Scientific and technological aspects of the development of a photovoltaic installation for operation in hot climates] Geliotekhnika. Tashkent, 2006. No.3. Pp.13-17. (in Russian)

Tursunov M.N., YUldoshev I.А. Razrabotka fotoehlektricheskikh batarezh, ustanovok ehffektivno rabotayushhikh v usloviyakh Tsentral'nozh Аzii [Development of photovoltaic batteries, installations efficiently operating in Central Asia] Problems of energy and resource saving. Tashkent, 2011. Special issue. Pp.160-165. (in Russian)

Tursunov M.N., Dyskin. V.G, Turdiev B.M., Yuldoshev I.А. Vliyanie konvek-tivnogo teploobmena na temperaturu solnechnozh fotoelektricheskoy batarei [The effect of convective heat transfer on the temperature of a solar photovoltaic battery]. Geliotekhnika. Tashkent, 2014. No.4. Pp.34-37. (in Russian)

Tursunov M.N., Dyskin V.G., Yuldashev I.А. Kriterie zagryazneniya poverkhnosti stekla fotoehlektricheskozh batarei [Photovoltaic battery surface pollution criterion] Geliotekhnika. Tashkent, 2015. No.2. Pp.82-84. (in Russian)

Dyskin V.G., Tursunov M.N., Abdullayev Ye.T. Mobil'niy izmeritel'niy zond dlya monitoringa stepeni zagryazneniya stekla [Mobile measuring probe for monitoring the degree of contamination of glass] Energy and Resource Saving Issues, 2016. No.1-2. Pp.4-6. (in Russian)

Tursunov MN, Turdiev BM, Abdullaev ET, Akhtamov TZ, Daminov SA, “Materials of the International scientific-practical conference“ «Pеrspеktivo` razvitiya vozobnovlyaеmoy enеrgеtiki Uzbеkistana», [Prospects for the development of renewable energy in Uzbekistan”], Tashkent 2018, Pp. 48-55. (in Russian).

Komilov А.G, Muminov R.А., Tursunov M.N. Otsenka ehffektivnosti sistemy solnechnogo ehlementa i kollektora v usloviyakh zharkogo klimata [Evaluation of the effectiveness of the solar cell system and collector in hot climates]. Geliotekhnika. Tashkent, 2008. No.2. Pp.32-35. (in Russian)

Tursunov M.N., Sabirov KH., Yuldoshev I.А., Turdiev B.M., Komolov I.M. Foto teplovye batarei raznozh konstruktsii, sravnitel'niy analiz [Photo thermal batteries of different designs, comparative analysis]. Geliotekhnika. Tashkent, 2017. No.1. Pp. 26-29. (in Russian)

Elswijk M.J., Jong M.J.M., Strootman K.J., Braakman J.N.C., De Lange E.T.N., Smit W.F. Photovoltaic thermal collectors in large solar thermal systems. 19th European PV Solar Energy Conference and Exhibition. Paris, France, June 2004.Pp.7-11.

Tursunov M.N., Muminov R.A., Yuldoshev B.A., Abdiev U. аt.al. Study of the Parameters of a Photo of a Thermal Battery with a cell Polycarbonate Collector, International Journal of Advance Research in Science Engineering and Technology. December 2019. vol. 6, no.12. Pp.12018-12023.

Patent № FAP 2015 0107 ot 15.03.2017 g., Fotoelektricheskaya ustanovka [Photovoltaic installation] Tursunov M.N., Sabirov KH., YUldoshev I.А., Komolov I.M., Radzhapov B.S. (in Russian)

Patent na poleznuyu model' № FAP ot 18.07.2011. Fototermopreobrazovatel' [Phototherm Transducer] Lutpullaev S.L., Tursunov M.N., Dadamukhammedov S., Yuldoshev I.А., Rasmij akhborotnoma 28.02.2013. No.2. (in Russian)

Patent na promyshlennoj obrazets №SAP 01413 ot 22.04.2015. Fotoehlektricheskaya ustanovka s prinuditel'nym okhlazhdeniem [Forced photovoltaic plant] Tursunov M.N., Sabirov KH., Yuldoshev I.А., Komolov I.M. Rasmij akhborotnoma 29.02.2016. No.2

Patent na promyshlennoj obrazets №SAP 20140066 «Mobil'naya fotoehlektricheskaya stantsiya» [Mobile Photovoltaic Station Registratsionnyj nomer zayavki Tursunov M.N., Sabirov KH., Аkhmedov Sh., Usmonov T.

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