ОЦЕНКА ПРОИЗВОДИТЕЛЬНОСТИ АВТОНОМНЫХ ФОТОЭЛЕКТРИЧЕСКИХ СТАНЦИЙ С ИСПОЛЬЗОВАНИЕМ ПРОГРАММЫ PV SYST

Name of journalИнновацион технологиялар
Number of edition2023/2(50)
View count43

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DOI

Date of creation in the UzSCI system15-05-2024

Read count43

Date of publication14-06-2023

Main LanguageRus

Pages3-12

Tags

Ўзбек

Производительность автономной фотоэлектрической станции

мощностью 2,7 кВт, установленной на парковке, была проанализирована с использованием

программы PV syst. Результаты моделирования показали, что наибольшее значение

глобальной горизонтальной плотности потока солнечной радиации приходится на летний

сезон и составляет ~ 214,0 кВт·ч/м2

. Из-за неиспользованной электроэнергии суточные и

месячные потери составляют 69,3 %. В процентном отношении потери энергии

распределились так: из-за высокой температуры 6,14 %, из-за деградации

фотоэлектрических батарей - 2,5 %, в местах коммутации фотоэлектрических батарей -

2,1 %, омические потери в проводах - 1,73 %. Результаты моделирования указывают на

потери электроэнергии, уменьшение которых приведёт к повышению производительности

автономной фотоэлектрической станции.

Tags

потребитель

автономная фотоэлектрическая станция

фотоэлектрическая батарея

солнечные излучения

№ Author name position Name of organisation

1 Muminov R.A. Akademik O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti

2 Tursunov M.N. Professor O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti

3 Sabirov X.. dotsent O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti

4 Eshmatov M.M. Doktorant O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti

5 Xolov U.R. Katta ilmiy xodim O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti

№ Name of reference

1 [1] Jaydeep V.R. Performance Evaluation of Grid-Connected Solar Photovoltaic Plant Using PVSYST Software. Journal of emerging Technologies and Innovative Research (JETIR), Vol. 2, p. 372–378, 2015.

2 [2] Кирпичникова И.М., Махсумов И.Б. “Выбор электрооборудования автономной фотоэлектрической системы с использованием программного обеспечения PVsyst”, Вестник ЮУрГУ. Серия “Энергетика”, Т. 20, № 2, с. 77–88, 2020.

3 [3] Kianda Dhipatya Syahindra, Samsul Ma’arif, Aditya Anindito Widayat, Ahmad Fakhrul Fauzi, and Eko Adhi Setiawan. “Solar PV System Performance Ratio Evaluation for Electric Vehicles Charging Stations in Transit Oriented Development (TOD) Areas”, E3S Web of Conferences 231, 02002, р. 2-5, 2021, DOI: org/10.1051/e3sconf/202123102002

4 [4] Турсунов М.Н., Сабиров Х., Холов У.Р., Ахтамов Т.З. “Автономная фотоэлектрическая система круглогодичного гарантийного обеспечения электроэнергией сельских объектов”, Журнал “Ирригация и мелиорация”, №3(20), с. 82-86, 2020.

5 [5] www.pvsyst.com дата обращения: вторник, 31 января 2023 г.

6 [6] Kamal Skeiker. “Optimum tilt angle and orientation for solar collectors in Syria”, Energy Conversion and Management 50, р. 2439–2448, 2009.

7 [7] Khalaf Hassan Ali. “Empirical Model for Estimating Global Solar and Diffuse Solar Radiations on Horizontal Surfaces”, Journal of Energy Technologies and Policy, Vol.6, No.5, р. 40-50, 2016.

8 [8] https://meteonorm.com дата обращения:вторник, 31 января 2023 г.

9 [9] Amstrong S., Glavin M.E., Hurley W.G. Comparison battery charging algorithms for stand- alone photovoltaic system. Conference Paper in PESC Record - IEEE Annual Power Electronics Specialists Conference, p. 1469–1475. 2008.

10 [10] Idris N., Omar A.M. and Shaari S. “Stand-alone photovoltaic power system application in Malaysia”, The 4th International Power Engineering and Optimization Conference (PEOCO2010), Shah Alam, Selangor, Malaysia, р. 23-24, 2010.

11 [11] Mohammadi F., “Design and Electrification of an Electric Vehicle Using Lithium-ion Batteries,” 3rd International Conference on Electrical Engineering,p. 2-11, 2018.

12 [12] A. Najah Al-Shamani, M.Y. Hj Othman, S. Mat, M.H. Ruslan, A. M. Abed, and K. Sopian, “Design and Sizing of Stand-alone Solar Power Systems A house Iraq,” Recent Advances in Renewable Energy Sources, April, p. 145-150, 2015.

13 [13] Nils H. Reich, Bjoern Mueller, Alfons Armbruster, Wilfried G. J. H. M. van Sark, Klaus Kiefer and Christian Reise. “Performance ratio revisited: is PR > 90% realistic?”, PROGRESS IN Photovoltaics: research and applications, р. 717–726, 2012, DOI: 10.1002/pip.1219.

14 [14] Tursunov M. N., Sabirov X., Xolov U. R., and Eshmatov M. “Investigation of the Parameters of a Photovoltaic Thermal Battery in Extreme Natural Conditions”, Аpplied Solar Energy, Vol. 57, No. 4, p. 272–277, 2021.

15 [15] M. N. Tursunov, V. G. Dyskin, Kh. A. Sobirov, and B. M. Turdiev. “Improvement of the Efficiency of PhotoHeat Converting Plant Operation”, Applied Solar Energy, 2014, Vol. 50, No. 4, p. 287–288.

16 [16] Jean Poll Alva-Araujo, Oscar Escalante-Maldonado, Ruddy Alfredo Cabrejos Ramos. “Design of a point-of-care facility for diagnosis of COVID-19 using an off-grid photovoltaic system”, Environment, Development and Sustainability, р. 11990–12005, 2021.

17 [17] T. Khatib, “A review of designing, installing and evaluating standalone photovoltaic power systems,” Journal of Applied Sciences, vol. 10, no. 13, pp. 1212–1228, 2010.

18 [18] M. N. Tursunov, V. G. Dyskin, B. M. Turdiev, and I. A. Yuldashev. The Influence of Convective Heat xchange on the Temperature of a Solarvoltaic Array, Applied Solar Energy, 2014, Vol. 50, No. 4, pp. 236–237.

19 [19] Figgis, B.; Scabbia, G.; Aissa, B. Condensation as a predictor of PV soiling. Sol. Energy, 238, 30–38, 2022.

20 [20] M.N. Tursunov, V.G. Dyskin, H. Sabirov, E.T. Abdullaev, I.M. Komolov, “Proceedings of the International Conference”, “Fundamental and Applied Problems of Physics”, Section 3: Renewable energy sources and solar materials science, their applied aspects, Tashkent, Study of the influence of atmospheric effects on the parameters of photovoltaic batteries, 235-241 p, 2016.

21 [21] Tursunov M. N., Dyskin V. G., Yuldashev I. A., Sobirov Kh., and Park Jeong Hwoan. “A Criterion of Contamination of the Glass Surface of Photovoltaic Batteries”, Applied Solar Energy, Vol. 51, No. 2, pp. 163–164, 2015.

Waiting

№	Author name	position	Name of organisation
1	Muminov R.A.	Akademik	O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti
2	Tursunov M.N.	Professor	O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti
3	Sabirov X..	dotsent	O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti
4	Eshmatov M.M.	Doktorant	O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti
5	Xolov U.R.	Katta ilmiy xodim	O‘zbekiston Respublikasi Fanlar akademiyasi Fizika-texnika instituti

№	Name of reference
1	[1] Jaydeep V.R. Performance Evaluation of Grid-Connected Solar Photovoltaic Plant Using PVSYST Software. Journal of emerging Technologies and Innovative Research (JETIR), Vol. 2, p. 372–378, 2015.
2	[2] Кирпичникова И.М., Махсумов И.Б. “Выбор электрооборудования автономной фотоэлектрической системы с использованием программного обеспечения PVsyst”, Вестник ЮУрГУ. Серия “Энергетика”, Т. 20, № 2, с. 77–88, 2020.
3	[3] Kianda Dhipatya Syahindra, Samsul Ma’arif, Aditya Anindito Widayat, Ahmad Fakhrul Fauzi, and Eko Adhi Setiawan. “Solar PV System Performance Ratio Evaluation for Electric Vehicles Charging Stations in Transit Oriented Development (TOD) Areas”, E3S Web of Conferences 231, 02002, р. 2-5, 2021, DOI: org/10.1051/e3sconf/202123102002
4	[4] Турсунов М.Н., Сабиров Х., Холов У.Р., Ахтамов Т.З. “Автономная фотоэлектрическая система круглогодичного гарантийного обеспечения электроэнергией сельских объектов”, Журнал “Ирригация и мелиорация”, №3(20), с. 82-86, 2020.
5	[5] www.pvsyst.com дата обращения: вторник, 31 января 2023 г.
6	[6] Kamal Skeiker. “Optimum tilt angle and orientation for solar collectors in Syria”, Energy Conversion and Management 50, р. 2439–2448, 2009.
7	[7] Khalaf Hassan Ali. “Empirical Model for Estimating Global Solar and Diffuse Solar Radiations on Horizontal Surfaces”, Journal of Energy Technologies and Policy, Vol.6, No.5, р. 40-50, 2016.
8	[8] https://meteonorm.com дата обращения:вторник, 31 января 2023 г.
9	[9] Amstrong S., Glavin M.E., Hurley W.G. Comparison battery charging algorithms for stand- alone photovoltaic system. Conference Paper in PESC Record - IEEE Annual Power Electronics Specialists Conference, p. 1469–1475. 2008.
10	[10] Idris N., Omar A.M. and Shaari S. “Stand-alone photovoltaic power system application in Malaysia”, The 4th International Power Engineering and Optimization Conference (PEOCO2010), Shah Alam, Selangor, Malaysia, р. 23-24, 2010.
11	[11] Mohammadi F., “Design and Electrification of an Electric Vehicle Using Lithium-ion Batteries,” 3rd International Conference on Electrical Engineering,p. 2-11, 2018.
12	[12] A. Najah Al-Shamani, M.Y. Hj Othman, S. Mat, M.H. Ruslan, A. M. Abed, and K. Sopian, “Design and Sizing of Stand-alone Solar Power Systems A house Iraq,” Recent Advances in Renewable Energy Sources, April, p. 145-150, 2015.
13	[13] Nils H. Reich, Bjoern Mueller, Alfons Armbruster, Wilfried G. J. H. M. van Sark, Klaus Kiefer and Christian Reise. “Performance ratio revisited: is PR > 90% realistic?”, PROGRESS IN Photovoltaics: research and applications, р. 717–726, 2012, DOI: 10.1002/pip.1219.
14	[14] Tursunov M. N., Sabirov X., Xolov U. R., and Eshmatov M. “Investigation of the Parameters of a Photovoltaic Thermal Battery in Extreme Natural Conditions”, Аpplied Solar Energy, Vol. 57, No. 4, p. 272–277, 2021.
15	[15] M. N. Tursunov, V. G. Dyskin, Kh. A. Sobirov, and B. M. Turdiev. “Improvement of the Efficiency of PhotoHeat Converting Plant Operation”, Applied Solar Energy, 2014, Vol. 50, No. 4, p. 287–288.
16	[16] Jean Poll Alva-Araujo, Oscar Escalante-Maldonado, Ruddy Alfredo Cabrejos Ramos. “Design of a point-of-care facility for diagnosis of COVID-19 using an off-grid photovoltaic system”, Environment, Development and Sustainability, р. 11990–12005, 2021.
17	[17] T. Khatib, “A review of designing, installing and evaluating standalone photovoltaic power systems,” Journal of Applied Sciences, vol. 10, no. 13, pp. 1212–1228, 2010.
18	[18] M. N. Tursunov, V. G. Dyskin, B. M. Turdiev, and I. A. Yuldashev. The Influence of Convective Heat xchange on the Temperature of a Solarvoltaic Array, Applied Solar Energy, 2014, Vol. 50, No. 4, pp. 236–237.
19	[19] Figgis, B.; Scabbia, G.; Aissa, B. Condensation as a predictor of PV soiling. Sol. Energy, 238, 30–38, 2022.
20	[20] M.N. Tursunov, V.G. Dyskin, H. Sabirov, E.T. Abdullaev, I.M. Komolov, “Proceedings of the International Conference”, “Fundamental and Applied Problems of Physics”, Section 3: Renewable energy sources and solar materials science, their applied aspects, Tashkent, Study of the influence of atmospheric effects on the parameters of photovoltaic batteries, 235-241 p, 2016.
21	[21] Tursunov M. N., Dyskin V. G., Yuldashev I. A., Sobirov Kh., and Park Jeong Hwoan. “A Criterion of Contamination of the Glass Surface of Photovoltaic Batteries”, Applied Solar Energy, Vol. 51, No. 2, pp. 163–164, 2015.