5

Maqolada turli mamlakatlar sug‘orish tizimlarida qo‘llaniladigan nasos
qurilmalari elektrodvigatellarini harakatga keltirish uchun quyosh energiyasidan foydalanish
samaradorligi muhokama qilingan. Fotoelektrik nasos qurilmalari iqtisodiy samaradorligining
zamonaviy ko‘rsatkichlari-qurilmalarning xizmat muddati davomidagi qiymati, sof joriy (keltirilgan)
qiymat, ishlab chiqarilgan energiyaning meyorlashtirilgan (keltirilgan) narxi va xarajatlarni qoplash
muddatini hisoblash uslubiyoti keltirilgan. Mazkur uslubiyot bo‘yicha quvvati 100 kVt bo‘lgan
fotoelektrik nasos qurilmasining iqtisodiy ko‘rsatkichlarini hisoblash natijalari keltirilgan.

  • Internet havola
  • DOI
  • UzSCI tizimida yaratilgan sana 02-11-2025
  • O'qishlar soni 5
  • Nashr sanasi 30-09-2024
  • Asosiy tilO'zbek
  • Sahifalar102-109
Ўзбек

Maqolada turli mamlakatlar sug‘orish tizimlarida qo‘llaniladigan nasos
qurilmalari elektrodvigatellarini harakatga keltirish uchun quyosh energiyasidan foydalanish
samaradorligi muhokama qilingan. Fotoelektrik nasos qurilmalari iqtisodiy samaradorligining
zamonaviy ko‘rsatkichlari-qurilmalarning xizmat muddati davomidagi qiymati, sof joriy (keltirilgan)
qiymat, ishlab chiqarilgan energiyaning meyorlashtirilgan (keltirilgan) narxi va xarajatlarni qoplash
muddatini hisoblash uslubiyoti keltirilgan. Mazkur uslubiyot bo‘yicha quvvati 100 kVt bo‘lgan
fotoelektrik nasos qurilmasining iqtisodiy ko‘rsatkichlarini hisoblash natijalari keltirilgan.

Havola nomi
1 [1] S.S. Chandel, M. Nagaraju Naik, Rahul Chandel. Review of solar photovoltaic water pumping system technology for irrigation and community drinking water supplies. Renewable and Sustainable Energy Reviews 49 (2015) 1084–1099. http://dx.doi.org/10.1016/j.rser.2015.04.083 [2] Lazard’s levelized cost of energy analysis—version 16.0. www.lazard.com/researchinsights/ 2023-levelized-cost-of-energyplus/ [3] Kiprono, A W., Llario, A I., (2020) Solar Pumping for Water Supply: Harnessing solar power in humanitarian and development, Rugby, UK: Practical Action Publishing . [4] M.Abu-Aligah. Design of Photovoltaic Water Pumping System and Compare it with Diesel Powered Pump. Jordan Journal of Mechanical and Industrial Engineering. Volume 5, Number 3, рр. 273-280. [5] P.D. Narale, N.S. Rathore and M.M. Lad. Techno economic assessment of solar photovoltaic water pumping system. I nternational Journal of Agricultural Engineering. Indian Institute of Technology, New Delhi. Volume 7. Issue 1.April, 2014. pp 1-6. [6] Misrak Girma 1, Abebayehu Assefa and Marta Molinas. Feasibility study of a solar photovoltaic water pumping system for rural Ethiopia. Environmental Science. Volume 2, Issue 3, 697-717. DOI: 10.3934/environsci. 2015 3.697 [7] Gobind Pillaia, Husain Ali Yaqoob Naser. Techno-Economic Potential of Largescale Photovoltaics in Bahrain. https://core.ac.uk/download/pdf/ 322330335.pdf [8] E. Drury, P. Denholm, R. Margolis, "The Impact of Different Economic Performance Metrics on the Perceived Value of Solar Photovoltaics", 2011. National Renewable Energy Laboratory, USA. http://www.nrel.gov/docs/fy12osti/52197.pdf. [9] Торговая площадка “Контроль”. г. Ташкент. Солнечный панель Jinko 560W JKM560N- 72HL4-V. https://kontrol.uz/ru/ product/detail/solnechnyi-panel-jinko-560w [10] Торговая площадка “Контрол”. г. Ташкент. Huawei SUN2000-100KTL-M1 AFCI 3ph инвертор 100 кВт. https://kontrol.uz/ru/product/detail/ huawei-sun2000-100ktl-m1-afci-3phinvertor- 100-kvt [11] Enas Shouman, Mervat Badr. Economics analysis of diesel and solar water pumping with case study water pumping for irrigation in Egypt. International Journal of Applied Engineering Research ISSN 0973-4562 Volume 11, Number 2 (2016) pp 950-954. https://www.researchgate.net/publication/298715623. [12] Avezova N.R., Matchanov N.A., Rakhimov E.Yu., Khakimov M.A., Dalmuradova N.N., Dekhkonova M.K. Assessment of solar energy potential of Kashkadarya region. Alternative Energy and Ecology (ISJAEE). 2022;(01):18-31. (In Russ.) https://doi.org/10.15518/isjaee.2022.01.018-031[13] Raximov E.Y. O‘zbekistonning gelioenergetik resurslarini baholash uchun ma’lumotlar bazasini shakllantirish va verifikatsiyalash.: Texn. fan. bo‘yicha PhD dissert. Farg‘ona: Farg‘. politex. inst., 2021. – 116 bet. [14] Renewable Power Generation Costs in 2023. https://www.iea.org/reports/renewables- 2023/electricity [15] Первый открытый тендер на строительство ФЭС выиграла компания из ОАЭ. Агентство финанасовых новостей. https://dividends.nuz.uz/2019/10/04/pobeditelem -tendera-nastroitelstvo- fjes-stala-kompanija-iz-oaje/ [16] O‘zbekiston Respublikasi Prezidentining 2019 yil 17 iyundagi 5742-sonli “Qishloq xo‘jaligida yer va suv resurslaridan samarali foydalanish chora-tadbirlari to‘g‘risida” Qarori. https://lex.uz/docs/4378524 [17] Чернов С.С., Бельчикова Е.С. Проблемы определения ставки дисконтирования в процессе экономического обоснования эффективности энергопроектов. https://cyberleninka.ru/article/n/problemy-opredeleniya-stavki-diskontirovaniya-v-protsesseekonomicheskogo- obosnovaniya-effektivnosti-energoproektov/viewer [18] O‘zbekiston Respublikasi Markaziy banki. Yillik, yil boshidan va oylik inflyatsiya. https://cbu.uz/oz/monetary-policy/annual-inflation/indicators/ [19] Сидоренко Г.И., Кудряшева И.Г., Пименов В.И. Экономика установок нетрадиционных и возобновляемых источников энергии. Технико- экономический анализ: Учеб. пособие / Под общ. ред. В.В. Елистратова и Г.И. Сидоренко. — СПб.: Изд-во Политехи, ун-та, 2008. - 248 с. [20] Углеродоемкость электроэнергии в мире и России. Аналитический центр при правительстве РФ. Энергетический бюллетень, №72, 2019. 28 с. https://ac.gov.ru/files/ publication/a/22245.pdf [21] Kenneth Gillingham. Carbon Calculus. Finance & development, december 2019, vol. 56, no. 4. https://www.imf.org/external/pubs/ft/fandd/2019/12/the-true-cost-of-reducing-greenhousegas- emissions-gillingham.htm
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