QUYOSH FOTOELEKTR STANSIYALARI ELEMENTLARINING OPTIMAL TARKIBINI TANLASH MASALASINING MATEMATIK MODELI VA UNI YECHISH ALGORITMI

Toshev Tojiddin O'ngboyevich; Gayibov Tulkin

Hozirgi davrda butun Jahonda, shu jumladan O‘zbekiston Respublikasida, energetika sohasi taraqqiyotining asosiy yo‘nalishlaridan biri elektr energetika tizimlariga quyosh fotoelektr stansiyalarini joriy etish muammolari bilan bog‘liq. Bunday stansiyalarga ega bo‘lgan elektr tizimlarini loyihalash ularni tashkil etuvchi elementlarning optimal tarkibini uzoq muddatli foydalanish shartlarini e’tiborga olib tanlash asosida amalga oshirilishi zarur. Hozirgi davrda ushbu muammoni hal etishga bag‘ishlangan bir qator ishlarning mavjudligiga qaramasdan elementlarning optimal tarkibini barcha ta’sir etuvchi faktorlarni e’tiborga olib tanlashning matematik modellari va algoritmlari yetarli darajada takomillashmagan. Ushbu maqolada akkumulyator batareyasiga ega bo‘lgan quyosh fotoelektr stansiyali avtonom elektr energetika tizimi uchun bunday masalaning matematik modeli va uni yechish algoritmi taklif etilgan

Название журналаИнновацион технологиялар
Номер выпуска2023/2(50)
Количество просмотров 30

Ссылка в интернете

DOI

Дата создание в систему UzSCI 17-05-2024

Количество прочтений 30

Дата публикации 14-06-2023

Язык статьиO'zbek

Страницы13-21

Ключевые слова

matematik model

quyosh paneli

fotoelektr stansiyasi

akkumulyator batareyasi

kapital mablag‘

ishlatish xarajatlari

Ўзбек

Hozirgi davrda butun Jahonda, shu jumladan O‘zbekiston Respublikasida, energetika sohasi taraqqiyotining asosiy yo‘nalishlaridan biri elektr energetika tizimlariga quyosh fotoelektr stansiyalarini joriy etish muammolari bilan bog‘liq. Bunday stansiyalarga ega bo‘lgan elektr tizimlarini loyihalash ularni tashkil etuvchi elementlarning optimal tarkibini uzoq muddatli foydalanish shartlarini e’tiborga olib tanlash asosida amalga oshirilishi zarur. Hozirgi davrda ushbu muammoni hal etishga bag‘ishlangan bir qator ishlarning mavjudligiga qaramasdan elementlarning optimal tarkibini barcha ta’sir etuvchi faktorlarni e’tiborga olib tanlashning matematik modellari va algoritmlari yetarli darajada takomillashmagan. Ushbu maqolada akkumulyator batareyasiga ega bo‘lgan quyosh fotoelektr stansiyali avtonom elektr energetika tizimi uchun bunday masalaning matematik modeli va uni yechish algoritmi taklif etilgan

Ключевые слова

matematik model

quyosh paneli

fotoelektr stansiyasi

akkumulyator batareyasi

kapital mablag‘

ishlatish xarajatlari

№ Имя автора Должность Наименование организации

1 Toshev T.O. katta o'qituvchi Qarshi muhandislik-iqtisodiyot instituti

2 Gayibov T.. professor Toshkent Davlat texnika universiteti

№ Название ссылки

1 [1] Zhang, Junli & Wei, Huashuai. (2022). A review on configuration optimization of hybrid energy system based on renewable energy. Frontiers in Energy Research. 10. 10.3389/fenrg.2022.977925.

2 [2] Lanre Olatomiwa. Optimal configuration assessments of hybrid renewable power supply for rural healthcare facilities. Energy Reports, Volume 2, 2016. Pages 141-146. ISSN 2352- 4847. https://doi.org/10.1016/j.egyr.2016.06.001.

3 [3] Mas’ud AA, Al-Garni HZ. Optimum Configuration of a Renewable Energy System Using Multi-Year Parameters and Advanced Battery Storage Modules: A Case Study in Northern Saudi Arabia. Sustainability. 2021; 13(9):5123. https://doi.org/10.3390/su13095123

4 [4] Wang, Zekun & Jia, Yan & Yang, Yingjian & Cai, Chang & Chen, Yinpeng. (2021). Optimal Configuration of an Off-Grid Hybrid Wind-Hydrogen Energy System: Comparison of Two Systems. Energy Engineering. 118. 1641-1658. 10.32604/EE.2021.017464.

5 [5] SUN, Qian et al. Optimal Configuration of Standalone Wind–Solar–Storage Complementary Generation System Based on the GA-PSO Algorithm. Journal of Power Technologies, [S.l.], v. 99, n. 4, p. 231–236, dec. 2019. ISSN 2083-4195.

6 [6] Ghayoor, Farzad; Swanson, Andrew G.; Sibanda, Hudson. Optimal sizing for a gridconnected hybrid renewable energy system: A case study of the residential sector in Durban, South Africa. J. energy South. Afr., Cape Town , v. 32, n. 4, p. 11-27, Nov. 2021 .

7 [7] Jing Yuan Liu, Xu Yang, Jin Gang Guo, Da Wang, Hai Zhao, Yue Lan, "Double-Layer Optimal Configuration Method of Hybrid Energy Storage System Based on Chaotic Ant Colony Algorithm", Advances in Multimedia, vol. 2022, Article ID 6993143, 10 pages, 2022. https://doi.org/10.1155/2022/6993143.

8 [8] Freire-Gormaly, M, & Bilton, AM. "Optimization of Renewable Energy Power Systems for Remote Communities." Proceedings of the ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. Volume 2A: 41st Design Automation Conference. Boston, Massachusetts, USA. August 2–5, 2015. V02AT03A030. ASME. https://doi.org/10.1115/DETC2015-47509

9 [9] Tristar, “TriStar MPPT Maximum Power Point Tracker,” 2014.

10 [10] Christoph Kost, Shivenes Shammugam, Verena Fluri, Dominik Peper, Aschkhan Davoodi Memar, Thomas Schelegl. “Levelized Cost of Electricity Renewable Energy Technologies,” 2021

11 [11] Christoph Kost, Shivenes Shammugam, Verena Julch, Huyen-Tran Nguyen, Thomas Schelegl. “Levelized Cost of Electricity Renewable Energy Technologies,” 2018.

12 [12] Гайибов Т. Выбор оптимальных параметров солнечных фотоэлектрических станций и аккумуляторов в распределительных электрических сетях / Сборник материалов международной онлайн конференции «Тенденции развития современной физики полупроводников: проблемы, достижения и перспективы». НИИ Физика полупроводников и микроэлектроники при Национальном университете Узбекистан. 2020. С. 237-242. www.e-science.uz.

13 [13] Gayibov T.Sh., Fayziyev M.M., Toshov T.U. Tarkibida qayta tiklanuvchan energiya manbalarida ishlovchi elektr stansiyalari mavjud bo‘lgan elektr energetika tizimlarining rejimlarini optimallash. Инновацион технологиялар журнали. 2022. Махсус сон, 26-29 б.

14 [14] Tulkin Gayibov and Elnur Abdullaev. Optimization of daily operation mode of photovoltic systems of enterprises. E3S Web of Conferences 264, 04063 (2021). CONMECHYDRO – 2021

15 [15] T.Sh. Gayibov, B.A. Uzakov, E.A. Abdullaev. (2020) Optimization of loading schedules of consumers with own stations on the basis of renewable energy sources. Journal of critical reviews. 7(15) 1738-1742.

В ожидании

№	Имя автора	Должность	Наименование организации
1	Toshev T.O.	katta o'qituvchi	Qarshi muhandislik-iqtisodiyot instituti
2	Gayibov T..	professor	Toshkent Davlat texnika universiteti

№	Название ссылки
1	[1] Zhang, Junli & Wei, Huashuai. (2022). A review on configuration optimization of hybrid energy system based on renewable energy. Frontiers in Energy Research. 10. 10.3389/fenrg.2022.977925.
2	[2] Lanre Olatomiwa. Optimal configuration assessments of hybrid renewable power supply for rural healthcare facilities. Energy Reports, Volume 2, 2016. Pages 141-146. ISSN 2352- 4847. https://doi.org/10.1016/j.egyr.2016.06.001.
3	[3] Mas’ud AA, Al-Garni HZ. Optimum Configuration of a Renewable Energy System Using Multi-Year Parameters and Advanced Battery Storage Modules: A Case Study in Northern Saudi Arabia. Sustainability. 2021; 13(9):5123. https://doi.org/10.3390/su13095123
4	[4] Wang, Zekun & Jia, Yan & Yang, Yingjian & Cai, Chang & Chen, Yinpeng. (2021). Optimal Configuration of an Off-Grid Hybrid Wind-Hydrogen Energy System: Comparison of Two Systems. Energy Engineering. 118. 1641-1658. 10.32604/EE.2021.017464.
5	[5] SUN, Qian et al. Optimal Configuration of Standalone Wind–Solar–Storage Complementary Generation System Based on the GA-PSO Algorithm. Journal of Power Technologies, [S.l.], v. 99, n. 4, p. 231–236, dec. 2019. ISSN 2083-4195.
6	[6] Ghayoor, Farzad; Swanson, Andrew G.; Sibanda, Hudson. Optimal sizing for a gridconnected hybrid renewable energy system: A case study of the residential sector in Durban, South Africa. J. energy South. Afr., Cape Town , v. 32, n. 4, p. 11-27, Nov. 2021 .
7	[7] Jing Yuan Liu, Xu Yang, Jin Gang Guo, Da Wang, Hai Zhao, Yue Lan, "Double-Layer Optimal Configuration Method of Hybrid Energy Storage System Based on Chaotic Ant Colony Algorithm", Advances in Multimedia, vol. 2022, Article ID 6993143, 10 pages, 2022. https://doi.org/10.1155/2022/6993143.
8	[8] Freire-Gormaly, M, & Bilton, AM. "Optimization of Renewable Energy Power Systems for Remote Communities." Proceedings of the ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. Volume 2A: 41st Design Automation Conference. Boston, Massachusetts, USA. August 2–5, 2015. V02AT03A030. ASME. https://doi.org/10.1115/DETC2015-47509
9	[9] Tristar, “TriStar MPPT Maximum Power Point Tracker,” 2014.
10	[10] Christoph Kost, Shivenes Shammugam, Verena Fluri, Dominik Peper, Aschkhan Davoodi Memar, Thomas Schelegl. “Levelized Cost of Electricity Renewable Energy Technologies,” 2021
11	[11] Christoph Kost, Shivenes Shammugam, Verena Julch, Huyen-Tran Nguyen, Thomas Schelegl. “Levelized Cost of Electricity Renewable Energy Technologies,” 2018.
12	[12] Гайибов Т. Выбор оптимальных параметров солнечных фотоэлектрических станций и аккумуляторов в распределительных электрических сетях / Сборник материалов международной онлайн конференции «Тенденции развития современной физики полупроводников: проблемы, достижения и перспективы». НИИ Физика полупроводников и микроэлектроники при Национальном университете Узбекистан. 2020. С. 237-242. www.e-science.uz.
13	[13] Gayibov T.Sh., Fayziyev M.M., Toshov T.U. Tarkibida qayta tiklanuvchan energiya manbalarida ishlovchi elektr stansiyalari mavjud bo‘lgan elektr energetika tizimlarining rejimlarini optimallash. Инновацион технологиялар журнали. 2022. Махсус сон, 26-29 б.
14	[14] Tulkin Gayibov and Elnur Abdullaev. Optimization of daily operation mode of photovoltic systems of enterprises. E3S Web of Conferences 264, 04063 (2021). CONMECHYDRO – 2021
15	[15] T.Sh. Gayibov, B.A. Uzakov, E.A. Abdullaev. (2020) Optimization of loading schedules of consumers with own stations on the basis of renewable energy sources. Journal of critical reviews. 7(15) 1738-1742.