NOVEL METHOD FOR SIZING AND PLACEMENT OF ENERGY STORAGE SYSTEMS IN DISTRIBUTION GRIDS
DOI:
https://doi.org/10.14529/power190206Keywords:
battery energy storage system, distribution grid, transformer substation, electric power qualityAbstract
State of the art. In the context of digitalization of electric grids, distribution grids remain the largest-scale and most problematic component. Technological solutions to improve the energy efficiency of these grids consist managing the voltage and transmission capacity of transmission lines using distributed generation and storage- based controls. However, to date, there is no universal method for appropriate sizing and placement of battery energy storage systems (BESS) in distribution grids that would take into account the varying daily load schedules, which is the subject matter of this paper. Materials and methods. Researchers have reviewed Russian and international scientific and technical publications on sizing and placement of BESS in distribution grids. Besides, this research uses well-known analytical methods for calculating the characteristic daily loads. Mathematical modeling was crucial to the experimental part and was done by means of PSS SINCAL. Results. The paper analyzes and presents state-of-the-art methods for sizing and placement of BESS in distribution grids. The authors have devised optimality criteria that help tailor the parametrization and placement of BESS to the application. The criteria are proven solid by mathematical modeling. Conclusions. The methodology herein presented can be used for the reconstruction and new construction of storage-enabled distribution grids of better economic efficiency and performance.
Downloads
References
Energy storage systems for advanced power applications / P.F. Ribeiro, B.K. Johnson, M.L. Crow et al. // Proceedings of the IEEE. – 2001. – No. 89. – P. 1744–1756. DOI: 10.1109/5.975900
Divya, K. Battery energy storage technology for power systems – An overview / K. Divya, J. Ostergaard // Electric Power Systems Research. – 2009. – No. 79. – P. 511–520. DOI: 10.1016/j.epsr.2008.09.017
A new device for the control and the connection to the grid of combined RES-based generators and electric storage systems / M. Ippolito, E. Telaretti, G. Zizzo, G. Graditi // Clean Electrical Power (ICCEP), 2013 International Conference on: IEEE. – P. 262–267. DOI:10.1109/ICCEP.2013.6586999
Гусев, Ю.П. Влияние накопителей электроэнергии на пропускную способность распределительных сетей напряжением 6–10 кВ / Ю.П. Гусев, П.В. Субботин // Электричество. – 2018. – № 1. – С. 13–18.
McDonald, J. Adaptive intelligent power systems: Active distribution networks / J. McDonald // Energy Policy. – 2008. – No. 36. – P. 4346–4351. DOI: 10.1016/j.enpol.2008.09.038
D’Adamo, C. Active distribution networks: General features, present status of implementation and operation practices / C. D’Adamo // Electra. –2009. – No. 246. – P. 22–39.7. Planning of reliable active distribution systems / G. Celli, E. Giani, G.G. Soma, F. Pilo // CIGRE 2012 Session. – Paris, 2012. – 8 p.
Hidalgo, R. A review of active distribution networks enabling technologies / R. Hidalgo, Ch. Abbey, G. Joos // IEEE PES General Meeting. – 2010. – 9 p. DOI: 10.1109/PES.2010.5590051
Применение систем накопления энергии для обеспечения качества электроэнергии и решения комплексных задач в электрических сетях и у потребителя / В.Д. Мельников, Н.Л. Новиков, В.А. Колесников и др. // Научно-практическая конференция «Современные средства обеспечения качества электроэнергии в электрических сетях и у потребителя», выставка «Электрические сети России – 2017», 7 декабря 2017 г., г. Москва. – М., 2017.
Сокольникова, Т.В. Определение оптимальных параметров накопителя для интеграции возобновляемых источников энергии в изолированных энергосистемах с активными потребителями / Т.В. Сокольникова, К.В. Суслов, П. Лом-
барди // Вестник ИрГТУ. – 2015. – № 10 (105). – С. 206–211.
Evaluating the benefits of an electrical energy storage system in a future smart grid / N.S. Wade, P.C. Taylor, P.D. Lang, P.R. Jones // Energy Policy. – 2010. – No. 11 (38). – P. 7180–7188. DOI: 10.1016/j.enpol.2010.07.045
Sizing strategy of distributed battery storage system with high penetration of photovoltaic for voltage regulation and peak load shaving / Y. Yang, H. Li, A. Aichhorn et al. // IEEE Transactions on Smart Grid. – 2014. – No. 2(5). – P. 982–991. DOI: 10.1109/tsg.2013.2282504
Тимонин, И.А. Выбор мест установки сетевых накопителей электроэнергии / И.А. Тимонин // ЭЛЕКТРОЭНЕРГИЯ. Передача и распределение. – 2013. – № 5 (20). – С. 80–82.
Перспективы применения накопителей электроэнергии для сетей электроснабжения 0,4 кВ / Е.В. Раубаль, М.А. Рашевская, С.И. Гамазин, С.В. Логинова // Вестник МЭИ. – 2013. – № 3. – С. 55–57.
Методика расчета основных параметров накопителя энергии по экспериментальным нагрузочным диаграммам / Д.Ю. Балуев, В.М. Зырянов, Н.Г. Кирьянова, Г.А. Пранкевич // Вестник ИрГТУ. – 2018. – № 5 (22). – С. 105–114. DOI: 10.21285/1814-3520-2018-5-105-114
Латочкин, И.В. Выбор параметров накопителя энергии и оптимизация системы электроснабжения предприятия / И.В. Латочкин, Н.И. Смоленцев // Ползуновский вестник. – 2016. – № 4 (2). – С. 65–69.
Optimal allocation of battery energy storage systems in distribution networks with high wind power penetration / Y. Zhang, K. Meng, F. Luo et al. // IET Renewable Power Generation. – 2016. – No. 10 (8). – P. 1105–1113. DOI: 10.1049/iet-rpg.2015.0542
Determination of the optimal installation site and capacity of battery energy storage system in distribution network integrated with distributed generation / J. Xiao, Z. Zhang, L. Bai, H. Liang // Generation Transmission & Distribution IET. – 2016. – No. 3 (10). –
P. 601–607. DOI: 10.1049/iet-gtd.2015.0130
Sedghi, M. Optimal Storage Planning in Active Distribution Network Considering Uncertainty of Wind Power Distributed Generation / M. Sedghi, A. Ahmadian, M. Aliakbar-Golkar // IEEE Transactions on Power Systems. – 2016. – No. 1 (31). – P. 304–316. DOI: 10.1109/tpwrs.2015.2404533
Optimal allocation of energy storage system for risk mitigation of DISCOs with high renewable penetrations / Y. Zheng, Z.Y. Dong, F.J. Luo et al. // IEEE Transactions on Power Systems. – 2014. – No. 29. – P. 212–220. DOI: 10.1109/tpwrs.2013.2278850
Saboori, H. Maximizing DISCO profit in active distribution networks by optimal planning of energy storage systems and distributed generators / H. Saboori, R. Hemmati // Renew. Sustain. Energy Rev. – 2017. – No. 71. – P. 365–372. DOI: 10.1016/j.rser.2016.12.066
Optimal siting & sizing of battery energy storage system in active distribution network / Z. Qing, Y. Nanhua, Z. Xiaoping et al. // IEEE PES ISGT Europe 2013. – 2013. – P. 1–5. DOI: 10.1109/isgteurope.2013.6695235
Multiobjective Battery Storage to Improve PV Integration in Residential Distribution Grids / J. Tant, F. Geth, D. Six et al. // IEEE Transactions on Sustainable Energy. – 2013. – No. 1 (4). – P. 182–191. DOI: 10.1109/tste.2012.2211387
Chauhan, A. A review on integrated renewable energy system based power generation for standalone applications: configurations, storage options, sizing methodologies and control / A. Chauhan, R. Saini // Renew Sustain Energy Rev. – 2014. – No. 38. – P. 99–120. DOI: 10.1016/j.rser.2014.05.079
Семенова, Л.А. Анализ методов оптимизации в решении задач выбора мест установки и мощности компенсирующих устройств / Л.А. Семенова, А.О. Инжеватова, Р.М. Салимов // Материалы Всероссийской научно-методической конференции «Университетский комплекс как региональный центр образования, науки и культуры». – Оренбург: ФГБОУ ВО «ОГУ», 2017. – С. 513–516.
Fabio, B. Radial MV networks voltage regulation with distribution management system coordinated controller / B. Fabio, C. Roberto, P. Valter // Electric Power Systems Research. – 2008. – No. 78. – P. 634–645. DOI: 10.1016/j.epsr.2007.05.007
Герасимов, С.Е. Регулирование напряжения в распределительных сетях / С.Е. Герасимов, А.Г. Меркурьев. – СПб.: Центр подготовки кадров СЗФ АО «ГВЦ Энергетики». – 1998. – 84 с.
Downloads
Published
How to Cite
Issue
Section
