ASSESSMENT AND MONITORING OF THE WORKING MODE OF COMBINED SUN-WIND UNITS FOR SUPPLYING INDEPENDENT CONSUMERS WITH ENERGY OF THE CHELEK SUBSTATION

The use of hybrid renewable energy systems combining various types of renewable energy technologies, such as a parabolocylindrical solar concentrator and a horizontal wind generator, can provide many advantages in terms of increasing power, increasing the stability of the system and increasing reliability. By leveraging the complementary nature of solar and wind resources, we discover that we can provide a stable and reliable source of energy with such combined systems, which means that we are contributing to a sustainable energy future.

As the world has moved towards a more sustainable and environmentally friendly approach to energy production, combined solar and wind installations have become an innovative solution to meet the energy needs of autonomous consumers. Combined solar wind turbines are ideal for autonomous or remote areas where access to traditional energy sources may be limited or unreliable. Having studied their unique features, advantages and potential applications for providing electricity to autonomous energy systems, the concept of combined solar and wind installations developed specifically for individual consumers was considered.

1. Qoişiev T.K. (2013) Jañğyrtylatyn energia közderı: Oqulyq, Almaty, 256 p.

2. https://www.irena.org/

3. https://www.gov.kz/memleket/entities/energo?lang=kk

4. https://meteo-tv.ru/kazahstan/almatinskaya-oblast/chilik/weather/climate/

5. Aldibekov İ.T. (2017) Qaita jañartylatyn energia közderı jäne energiany ünemdeu, Almaty, AEjBU, 99 p.

6. Bolotov A.V. (2011) Netradicionnye i vozobnovljaemye istochniki jelektrojenergii, Almaty, AUJeS, 79 p.

7. Bezrukih P.P., Arbuzov Ju.D., G.A. Borisov i dr. (2002) Resursy i jeffektivnost' ispol'zovanija vozobnovljaemyh istochnikov jenergii v Rossii, SPb., Nauka, 314 p.

8. BolotovA.V., Bakenov K.A. (2007) Netradicionnye i vozobnovljaemye istochniki jelektrojenergii,Almaty,AIJeS, 40 p.

9. Labejsh V.G. (2003) Netradicionnye i vozobnovljaemye istochniki jenergii, SPb., SZTU, 79 p.

10. Sibikin Ju.D., Sibikin M.Ju. (2014) Al'ternativnye istochniki jenergii, Moscow, 248 p.

11. Dzhumamuhambetov N.G., Iryshkov I.A., Zhanalieva M.A. (2010) Netradicionnye vozobnovljaemye istochniki jenergii, Almaty, Jevero, 218 p.

12. LjashkovV.I., Kuz'min S.N. (2003) Netradicionnye ivozobnovljaemyeistochnikijenergii,Tambov, Izd-voTGTU, 96 p.

13. Lukutin B.V. (2008) Vozobnovljaemye istochniki jenergii, Tomsk, 187 p.

14. Gorodov R.V., Gubin V.E., Matveev A.S. (2009) Netradicionnye i vozobnovljaemye istochniki jenergii, Tomsk, 294 p.

15. Matveev V. (2009) Vozobnovljaemye istochniki jenergii. Jenergija-solnca, biomassy, vetra, vody. Jenergeticheskie tehnologii i ustanovki, A., Bastau.

16. Iskakov N. (2008) Vozobnovljaemye istochniki jenergii i jenergosberezhenie, Astana.

17. Dzh. Daffi, Bekman U. (2008.) Osnovy solnechnoj teplojenergetiki : Uchebno-spravochnoe rukovodstvo, M., 276 p.

18. Tleuov A.H. (2009) Netradicionnye istochniki jenergii, M., Foliant,.248 p.

19. Alhasov A.B. (2011) Vozobnovljaemye istochniki jenergii, M., MJeI, 252 p.

20. Bajmirov M.E. (2011) Kombinirovannye avtonomnye vozobnovljaemye jenergosistemy, Almaty, JeVERO, 204 p.