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Home / Conferences / CAD/EDA/Simulation in Modern Electronics / CAD/EDA, Modeling and Simulation in Modern Electronics. Part 1
MODELING OF USE ELECTRIC ENERGY STORAGES WITH SYNCHRONOUS GENERATOR TO IMPROVE QUALITY ELECTRICITY SUPPLY OF INDUSTRIAL CONSUMERS
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MODELING OF USE ELECTRIC ENERGY STORAGES WITH SYNCHRONOUS GENERATOR TO IMPROVE QUALITY ELECTRICITY SUPPLY OF INDUSTRIAL CONSUMERS
UDK 62 Инженерное дело. Техника в целом. Транспорт GRNTI 50.51 Автоматизация проектирования BBK 302 Проектирование TBK 5136 Системы автоматического проектирования
Bahteev Kamil' 1
Fedotov Aleksandr 2
Misbahov R 3
Authors:
1.  Kazan State Power Engineering University (Inzhiniringovyy centr )
employee
Kazan', Russian Federation
2.  Kazan State Power Engineering University (Inzhiniringovyy centr )
employee
Kazan', Russian Federation
3.  Kazan State Power Engineering University
Kazan', Russian Federation
Type:
Сonference article
DOI:
https://doi.org/10.30987/conferencearticle_5c19e5e39a6be6.96618825
Published:
22.12.2018
Subject area:
UDK 62 Инженерное дело. Техника в целом. Транспорт
GRNTI 50.51 Автоматизация проектирования
BBK 302 Проектирование
TBK 5136 Системы автоматического проектирования
Language:
Russian
Keywords:
electricity storage, hybrid storage, voltage failure, synchronous generator, autonomous power supply, simulation modeling
Abstract and keywords
Abstract (English):
Using computer simulations, it has been shown that the use of energy storage devices such as batteries and supercapacitors together with a synchronous generator can improve the quality of power supply to large industrial consumers during voltage dips of various durations.

Keywords:
electricity storage, hybrid storage, voltage failure, synchronous generator, autonomous power supply, simulation modeling
Text
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References

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2. Berdnikov, R.N. Gibridnyy nakopitel' elektroenergii dlya ENES na baze akkumulyatorov i superkondensatorov / R.N. Berdnikov, V.E. Fortov, E.E. SON, K.K. Del'schikov, A.Z. Zhuk, N.L. Novikov, Yu.G Shakaryan. // Energiya edinoy seti. – 2013. – №2(7). – S.41.

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6. Rastler, D. Electric Energy Storage Technology Options: A White Paper Primer on Applications, Costs, and Benefits / D. Rastler. EPRI, Palo Alto, CA, 2010. 1020676. –

7. Fedotov, A.I. Povyshenie kachestva elektrosnabzheniya promyshlennyh potrebiteley putem ispol'zovaniya nakopiteley elektroenergii pri provalah napryazheniya / A.I. Fedotov, K.R. Bahteev. – Cheboksary: Chuvashskiy gosudarstvennyy universitet imeni I.N. Ul'yanova, 2017. – S.308.

8. Kenan, M. Transient modeling and analysis of a DFIG based wind farm with supercapacitor energy storage / M. Kenan, D. Ayşen, B. Arsoyb. International Journal of Electrical Power & Energy Systems Volume 78, June 2016. – P. 414.

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