EXPERIMENTAL STUDY OF OPERATING MODES OF AN UNINTERRUPTIBLE POWER SUPPLY SOURCE USING A WIND GENERATOR AS THE PRIMARY SOURCE
DOI:
https://doi.org/10.37547/ijasr-03-10-20Keywords:
Clean ecological energy, wind generator, electric generatorAbstract
The energy that serves humanity without harming the environment is ecologically clean natural energy that exists in nature. These types of energy include water, sun, wind, geothermal waters, geysers, waves, rising and falling water levels, volcanoes, lightning, various currents in oceans and seas, biomass, hydrogen fuel, urban waste, photosynthesis; may include photoelectric converters, chemical (galvanic) elements and others. These types of energy are called non-traditional and renewable energy sources. It is possible to produce clean ecological energy only from the above-mentioned energy sources. In the article, an experimental study and analysis of the operating modes of an uninterruptible power supply using a wind generator as a primary source
Downloads
References
Rayimdjanova Odinakhon Sadikovna, Usmonali Umarovich Iskandarov, & Orifjonova Mohidil Oqiljon qizi. (2023). Analyses of Base of the Development and Organize of the Digital Television Format. Eurasian Journal of Media and Communications, 16, 1–5. Retrieved from
Rayimdjanova Odinakhon Sodiqovna, & Iskandarov Usmonali Umarovich. (2023). Research of a multi - stage receiver of a laser microphone. European Journal of Interdisciplinary Research and Development, 14, 240–244. Retrieved from
Sadikovna, R. O., & Iskandarov, U. U. (2023). Analyses of Base of the Development and Organize of the Digital Television Format. Eurasian Journal of Media and Communications, 16, 1-5.
Усмонали Умарович Искандаров, & Жураева Гулноза Фазлитдиновна. (2022). Разработка устройства охраны и безопасности в импульсном режиме с невидимым лазерным лучом. European Journal of Interdisciplinary Research and Development, 10, 252–256. Retrieved from
Хосилов, Д. Д., Мадаминов, М. Р., & Йулдашев, Х. Т. (2021). Исследование
вольт–амперная характеристика в системе полупроводник− газоразрядный промежуток. Oriental renaissance: Innovative, educational, natural and social sciences, 1(10), 625-634
Gulnozakhon Juraeva, Shokhbozjon Ergashev, & Kamola Sobirova. (2022). Optoelectronic converters based on afn elements. Oriental Journal of Technology and Engineering, 2(02), 7–13. https://doi.org/10.37547/supsci-ojte-02-02-02.
O. S. Rayimdjanova, M. Akbarova, & B. Ibrokhimova. (2022). Thermal converter for horizontal wind speed and temperature control. Oriental Journal of Technology and Engineering, 2(02), 14–20. https://doi.org/10.37547/supsci-ojte-02-02-03.
Жураева, Г., Эргашев, Ш., & Собирова, К. (2022). Оптоэлектронные преобразователи на основе афн–элементов. Новости образования: исследование в XXI веке, 1(5), 246-250.
smailov, M., & Xolmatov, I. (2022). Optimal methods for designing sewer networks. Science and Innovation, 1(7), 744-749.
Райимжанова, О. С., Акбарова, М., & Иброхимова, Б. (2022). Тепловой преобразователь для контроля скорости и температуры горизонтального ветра. Новости образования: исследование в XXI веке, 1(5), 251-256.
M.R. Madaminov, & X.T. Yuldashev. (2022). Inverter modeling in improving the energy efficiency of a mobile uninterrupted supply source. International Journal of Advance Scientific Research, 2(11), 77–82. https://doi.org/10.37547/ijasr-02-11-1.
Rayimjonova, O., & Ismoilov, A. (2022). The working principle of optical amplifiers and their types. International Journal of Advance Scientific Research, 2(12), 140-144.
Исмоилов, М. М. (2022). Повышение эффективности систем солнечного теплоснабжения с плоскими солнечными коллекторами: основные резервы и возможные пути их реализации. Central asian journal of mathematical theory and computer sciences, 3(12), 79-84.
Rayimjonova, O. S., Makhmudov, I. A., & Tillaboyev, M. G. (2022). Model and Method of Intellectualization of the Processes of Providing Resources and Services of the Multiservice Network. Eurasian Research Bulletin, 15, 196-200.
Рашидов, Ю. К., Исмоилов, М. М., Рашидов, К. Ю., & Файзиев, З. Ф. (2019). Повышение равномерности распределения потока жидкости по подъемным трубам лучепоглощающей теплообменной панели солнечного водонагревательного коллектора листотрубного типа в условиях принудительной циркуляции при действии объёмных сил. In Экологическая, промышленная и энергетическая безопасность-2019 (pp. 1377-1382).
O.S. Rayimjonova. (2022). Investigation of cluster-type inhomogeneity in semiconductors. American Journal of Applied Science and Technology, 2(06), 94–97. https://doi.org/10.37547/ajast/Volume02Issue06-15
Исмаилов, М. М. (2022). Разработка энергоэффективного солнечного коллектора. Central asian journal of mathematical theory and computer sciences, 3(12), 207-210.
Increasing the thermal performance of flat plate solar collectors Rashidov, Yu.K. Aytmuratov, B. Ismailov, M.M. AIP Conference Proceedingsthis link is disabled, 2022, 2762, 020025.
D.R. Komilov, I.A. Makhmudov, & M.G. Tillaboyev. (2023). Use of radio relay devices in telecommunication systems. International Journal of Advance Scientific Research, 3(04), 72–77. https://doi.org/10.37547/ijasr-03-04-10
H. Kuldashov, T. Dadajonov, & M.G. Tillaboyev. (2023). Simulink Model in the Matlab System for Determining the Causes of Possible Damages of Cable Lines. Eurasian Journal of Engineering and Technology, 14, 92–98. Retrieved from https://geniusjournals.org/index.php/ejet/article/view/3232
Shohbozjon Ergashev. (2023). Optoelectronic converters based on apv elements. European Journal of Emerging Technology and Discoveries, 1(6), 1–4. Retrieved from
Ш. У. Эргашев. (2023). Оптроны с тонкой пленкой на базе поликристаллических однополых полупроводниках. European Journal of Interdisciplinary Research and Development, 19, 69–73. Retrieved from https://ejird.journalspark.org/index.php/ejird/article/view/774
A.X.Abdusamatov. (2023). Обнаружение Повреждений В Электрически Обесточенных Линиях Электропередачи. Diversity Research: Journal of Analysis and Trends, 1(6), 62–69. Retrieved from http://academiaone.org/index.php/2/article/view/239.
Downloads
Published
Issue
Section
License
Copyright (c) 2023 M.R. Madaminov
This work is licensed under a Creative Commons Attribution 4.0 International License.
