ELEKTR TARMOQQA ULANGAN 100 kW FOTOELEKTRIK STANSIYANING ENERGIYA KOʻRSATKICHLARI TAHLILI UOʻK: 621.383

Abilfayziyev Shokir Narmuratovich
Qurbonmurodov Umid Jumanazarovich
TO'LIQ MATN:

Referat

Soʻnggi yillarda quyosh fotoelektrik stansiyalarining (FES) barpo etish, markaziy energiya tarmoq yuklamasini kamaytirishi bilan birga undan foydalanganlik uchun sarflanadigan energiya xarajatlarini sezilarli darajada kamaytirish va qulay tartibga solish islohotlari tufayli tezlashdi. Oʻzbekiston janubida oʻrnatilgan FES energetik koʻrinishlarini tahlil qilish, mamlakatda qayta tiklanuvchi energiya manbalarini rivojlantirish boʻyicha strategik maqsadlarni amalga oshirishda muhim ahamiyat kasb etadi. Ushbu maqolada Respublikamizning janubiy mintaqasida joylashgan Termiz shahridagi 100 kW quvvatga ega FES ning qish faslidagi monitoring natijalari keltirilgan. Bu faslda FES tomonidan ishlab chiqarilgan oʻrtacha energiya miqdori 22 885,45 kWh ga teng boʻldi. Bundan tashqari, FES da qish fasli uchun belgilangan quvvatdan foydalanish koeffitsiyenti (BQFK) oylar kesimida hisoblab topildi va uning oʻrtacha qiymati 10,59% ekanligi aniqlandi. Tadqiqot natijasiga koʻra qish faslida tizimning energiya yoʻqotilishiga olib keladigan asosiy omillarga: bulutli kunlar, quyosh panellari frontal yuzasini chang bilan ifloslanishi,  fotoelektrik batareyalarning qiyalik burchagini optimal oʻrnatmaslik va markazlashgan elektr tarmogʻidagi tez-tez uzilishlar sababli kelib chiqmoqda. Surxondaryo viloyatining tabiiy sharoiti quyosh energiyasidan maksimal darajada foydalanish uchun qulay. Texnik va iqtisodiy jihatdan Surxondaryoda quyosh elektr stansiyalarini rivojlantirish istiqbolli hisoblanadi.

Kalit so'zlar:

Mualliflar haqida

Abilfayziyev Shokir Narmuratovich

texnika fanlari boʻyicha falsafa doktori (PhD)

Termiz davlat muhandislik va agrotexnologiyalar universiteti
Qurbonmurodov Umid Jumanazarovich

oʻqituvchi

Termiz davlat muhandislik va agrotexnologiyalar universiteti

Adabiyotlar ro'yxati

Soudipan Maity, Zakir Hussain Rather, Suryanarayana Doolla. A comprehensive review of grid support services from solar photovoltaic power plants. Renewable and Sustainable Energy Reviews, Volume 210, March 2025, 115133. https://doi.org/10.1016/j.rser.2024.115133.

D.P. Kaundinya, P. Balachandra, N.H. Ravindranath. Grid-connected versus stand-alone energy systems for decentralized power—A review of literature. Renewable and Sustainable Energy Reviews.Volume 13, Issue 8, October 2009, Pages 2041-2050.

Wu. Yunna, Xu. Minjia, He. Jiaming and all. A critical barrier analysis framework to the development of rural distributed PV in China. Energy, Volume 245, 15 April 2022, 123277. https://doi.org/10.1016/j.energy.2022.123277.

IRENA. Renewable capacity statistics 2024. Technical report, Abu Dhabi: International Renewable Energy Agency; 2024.

Soudipan Maity, Zakir Hussain Rather, Suryanarayana Doolla. A comprehensive review of grid support services from solar photovoltaic power plants. Renewable and Sustainable Energy Reviews, Volume 210, March 2025, 115133.

SolarPower Europe. Global market outlook for solar power 2024–2028. Technical report, SolarPower Europe; 2024.

H.D. Tafti, G. Konstantinou, C.D. Townsend and all. Extended functionalities of photovoltaic systems with flexible power point tracking: Recent advances. IEEE Trans Power Electron 2020; 35(9):9342–56. http://dx.doi.org/10.1109/TPEL.2020.2970447.

M. Sun, Y. Feng, P. Wall, and all. On-line power system inertia calculation using wide area measurements. Int J Electr Power Energy Syst 2019; 109:325–31. http://dx.doi.org/10.1016/j.ijepes.2019.02.013.

L.J. Milan, Markovic and Rade M. Ciric. Efficiency Analysis of Grid-connected Photovoltaic Power Plants. csee journal of power and energy systems, Vol. 3, №3, september 2017. doi: 10.17775/CSEEJPES.2016.01100.

S. M. Mirhassani, H. C. Ong, W. T. Chong, and K. Y. Leong, “Advances and challenges in grid tied photovoltaic systems,” Renewable and Sustainable Energy Reviews, vol. 49, pp.121–131, Sep. 2015.

J. Ahmed and Z. Salam, “A critical evaluation on maximum power point tracking methods for partial shading in PV systems,” Renewable and Sustainable Energy Reviews, vol. 47, pp. 933–953, Jul. 2015.

D. D. Milosavljevic, T. M. Pavlovic, and D. S. Pirsl, “Performance analysis of a grid connected solar PV plant in Nis, Republic of Serbia,” Renewable and Sustainable Energy Reviews, vol. 44, pp. 423–435, Apr. 2015.

Hwayoung Jeon, CO2 emissions, renewable energy and economic growth in the US, Volume 35, Issue 7, August–September 2022, 107170. https://doi.org/10.1016/j.tej.2022.107170.

Muhammad Nizami, Slamet, Widodo Wahyu Purwanto. Solar PV based power-to-methanol via direct CO2 hydrogenation and H2O electrolysis: Techno-economic and environmental assessment. Journal of CO2 Utilization. Vol.65, Nov. 2022, 102253. http://doi.org/10.1016/j.jcou.2022.102253.

B. Yuldoshov, E. Saitov and all. Effect of Temperature on Electrical Parameters of Photovoltaic Module//Proceedings of International Conference on Applied Innovation in IT. Volume 11, Issue 1, pp. 291-295. (DOI:10.25673/101957).

R.A. Muminov, M.N. Tursunov, Kh. Sabirov, Sh.N. Abilfayziyev, B.A. Yuldoshov and S.F. Toshpulatov. Testing of crystalline silicon-based photoelectric and photothermal batteries in real climate conditions and comparison of parameter changes. Journal of Physics: Conference Series 2388 (2022) 012128. doi:10.1088/1742-6596/2388/1/012128.

M.N. Tursunov, Kh. Sabirov, Sh.N. Abilfayziyev, B.A. Yuldoshov Testing of different material type photoelectric battery and photothermal batteries composed. Eurasian Physical Technical Journal, 2022 №4(42), pp.44-50.

B.A. Yuldoshov, S.F. Toshpulatov, Sh.J. Qarshiyev. Analysis of the energy indicators of the 70 kW photoelectric station connected to the electric network. Qarshi muhandislik-iqtisodiyot instituti. 2024/3(55)-son.118-126 bet.

A. Khaitmukhamedov, A. Vokhidov. Uzbekistan renewable energy short overview: programs and prospects. International Journal of Energy and Smart Grid (IJESG), 2017, Vol. 2.

E.Yu. Rakhimov, Sh.E. Sadullaeva, Yu.G. Kolomiets, Kh.K. Tashmatov. Analysis of the Solar Energy Potential of the Republic of Uzbekistan. Applied Solar Energy, 2017, №53(4) pp 68-70.

https://globalsolaratlas.info/detail?c=41.52174,64.567155,6&r=UZB.

Qanday qilib iqtibos keltirish mumkin

Abilfayziyev , S. N., & Qurbonmurodov , U. J. (2025). ELEKTR TARMOQQA ULANGAN 100 kW FOTOELEKTRIK STANSIYANING ENERGIYA KOʻRSATKICHLARI TAHLILI: UOʻK: 621.383. INNOVATSION TEXNOLOGIYALAR, 57(1), 39–47. Retrieved from https://innotex-journal.uz/index.php/journal/article/view/139
Лицензия Creative Commons

Bu ish Creative Commons Attribution-NoCommercial-NoDerivatives 4.0 xalqaro litsenziyasi ostida litsenziyalangan.

Ko'rishlar soni: 11