Методика выбора параметров противоаварийных команд на отключение потребителей в сетях 0,4 кВ

Ян [Yan] Леонардович [L.] Арцишевский [Artsishevsky]; Борбад [Borbad] Мирзоевич [M.] Гиеев [Giyoev]

doi:10.24160/1993-6982-2018-3-21-28

Ян [Yan] Леонардович [L.] Арцишевский [Artsishevsky]
Борбад [Borbad] Мирзоевич [M.] Гиеев [Giyoev]

DOI: https://doi.org/10.24160/1993-6982-2018-3-21-28

Keywords: underfrequency load shedding, automated electricity monitoring and accounting system, modified electricity meters, power balance

Abstract

Conventionally, when accidents entailing active power imbalance occur in a power system, the underfrequency load shedding devices disconnect the necessary and sufficient amount of loads at the 10 kV voltage level. These load shedding operations are carried out without the possibility of taking into account the importance of certain consumers at the 0.4 kV voltage level. What is more, in view of using loads highly sensitive to power supply continuity, recent years have seen more stringent requirements being imposed on the reliability of their power supply. On the other hand, the availability of new computerized facilities opens the possibility of improving the reliability of supplying power to them even in the emergency load limitation mode. Specifically, this can be achieved by integrating the existing relay protection and automatic control systems with the automated electricity consumption monitoring and control system in such a way that consumers at the 0.4 kV level are selectively disconnected by commands of the underfrequency shedding control devices installed at the 10 kV voltage level. The article considers issues concerned with elaborating a procedure for selecting the values of the information parameter specifying the duration of command signals for disconnecting 0.4 kV loads produced by the automatic underfrequency load shedding devices at the 10 kV voltage level. It is proposed to perform load shedding operations by using a new method developed at the Moscow Power Engineering Institute National Research University. According to the proposed method, loads operating at the 0.4 kV voltage level are selectively disconnected through artificially creating a voltage sag (interruption) and using it as the underfrequency shedding command signal for disconnecting less critical loads. The article presents the principle of tuning-out from possible events and phenomena in the power supply network internal and external parts taking into account the existing setpoints of the relay protection and automatic control devices, and the influence of motor loads in generating and transmitting the command signal for short-term interruption of voltage via the 10 and 0.4 kV power network. A procedure for selecting the timing tuning parameters of the emergency control command generating and receiving devices.

Information about authors

Ян [Yan] Леонардович [L.] Арцишевский [Artsishevsky]

Science degree:

Ph.D. (Techn.), Academician of the Academy of Electrotechnical Sciences of the Russian Federation

Workplace

Relay Protection and Automation of Energy Systems Dept., NRU MPEI

Occupation

Assistant Professor

Борбад [Borbad] Мирзоевич [M.] Гиеев [Giyoev]

Workplace

Relay Protection and Automation of Energy Systems Dept., NRU MPEI

Occupation

Ph.D.-student

References

1. ГОСТ 32144—2013. Совместимость технических средств электромагнитная. Нормы качества электрической энергии в системах электроснабжения общего назначения.

2. СТО 59012820.29.020.002—2012. Релейная защита и автоматика. Взаимодействие субъектов электроэнергетики, потребителей электрической энергии при создании (модернизации) и организации эксплуатации.

3. Рабинович Р.С. Автоматическая частотная разгрузка энергосистем. М.: Энергоатомиздат, 1989.

4. Арцишевский Я.Л., Гиеев Б.М. Надежность электроснабжения ответственных потребителей 0,4 кВ при действии АЧР // Перспективы развития электроэнергетики и высоковольтного электротехнического оборудования. Коммутационные аппараты, преобразовательная техника, микропроцессорные системы управления и защиты: Материалы XХII Междунар. науч.-техн. конф. М., 2015.

5. Эдельман В.И. Развитие механизмов управления надежностью электроснабжения в современных условиях // Библиотечка электротехника. 2015. № 8.

6. Arafat Y. On Possibilities of Smart Meters Switching at Low Voltage Level for Emergency Grid Management// Proc. 23rd Intern. Conf. and Exhibition on Electricity Distribution. Lyon, 2015.

7. Пат. № 0002542742 РФ. Способ аварийного ограничения нагрузки в силовой распределительной сети / Я.Л. Арцишевский, А.А. Земцов // Бюл. изобрет. 2015. № 6.

8. Кудрин Б.И., Цырук С.А. Техноценологические основания науки об электрическом хозяйстве потребителей электротехнической продукции и электрической энергии и мощности. М.: Технетика, 2015.

9. Taha Landolsi e. a. Wireless Distributed Load-shedding Management System for Non-emergency Cases// Intern. J. Electrical, Computer, Energetic, Electronic and Communication Eng. 2010. V. 4. No. 2. Рр. 224 — 231.

10. Арцишевский Я.Л., Гиеев Б.М. Адаптация АЧР к переменному уровню ответственности электроприемников 0,4 кВ // Энергетик. 2017. №8. С. 18 — 21.

11. Гуров А.А., Сергунов Ю.А. Обоснование методики статистического исследования провалов напряжения в системах электроснабжения общего назначения // Энергобезопасность и энергосбережение. 2009. № 1 (25). С. 15 — 20.
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Для цитирования: Арцишевский Я. Л., Гиеев Б.М. Методика выбора параметров противоаварийных команд на отключение потребителей в сетях 0,4 кВ // Вестник МЭИ. 2018. № 3. С. 21—28. DOI: 10.24160/1993-6982-2018-3-21-28.
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1. GOST 32144—2013. Sovmestimost' Tekhnicheskih Sredstv Elektromagnitnaya. Normy Kachestva Elektriches- Koy Energii v Sistemah Elektrosnabzheniya Obshchego Naznacheniya. (in Russian).

2. STO 59012820.29.020.002—2012. Releynaya Zashchita i Avtomatika. Vzaimodeystvie Sub'ektov Elektroenergetiki, Potrebiteley Elektricheskoy Energii pri Sozdanii (Modernizatsii) i Organizatsii Ekspluatatsii. (in Russian).

3. Rabinovich R.S. Avtomaticheskaya Chastotnaya Razgruzka Energosistem. M.: Energoatomizdat, 1989. (in Russian).

4. Artsishevskiy Ya.L., Gieev B.M. Nadezhnost' Elektrosnabzheniya Otvetstvennyh Potrebiteley 0,4 kV pri Deystvii ACHR. Perspektivy Razvitiya Elektroenergetiki i Vysokovol'tnogo Elektrotekhnicheskogo Oborudovaniya. Kommutatsionnye Apparaty, Preobrazovatel'naya Tekhnika, Mikroprotsessornye Sistemy Upravleniya i Zashchity: Materialy XХII Mezhdunar. Nauch.-tekhn. Konf. M., 2015. (in Russian).

5. Edel'man V.I. Razvitiе Mekhanizmov Upravleniya Nadezhnost'yu Elektrosnabzheniya v Sovremennyh Usloviyah. Bibliotechka Elektrotekhnika. 2015;8. (in Russian).

6. Arafat Y. On Possibilities of Smart Meters Switching at Low Voltage Level for Emergency Grid Management. Proc. 23rd Intern. Conf. and Exhibition on electricity distribution. Lyon, 2015.

7. Pat. № 0002542742 RF. Sposob Avariynogo Ogranicheniya Nagruzki v Silovoy Raspredelitel'noy Seti / Ya.L. Artsishevskiy, A.A. Zemtsov. Byul. izobret. 2015;6. (in Russian).

8. Kudrin B.I., Tsyruk S.A. Tekhnotsenologicheskie Osnovaniya Nauki ob Elektricheskom Hozyaystve Potrebiteley Elektrotekhnicheskoy Produktsii iElektricheskoy Energii i Moshchnosti. M.: Tekhnetika, 2015. (in Russian).

9. Taha Landolsi e. a. Wireless Distributed Load- shedding Management System for Non-emergency Cases. Intern. J. Electrical, Computer, Energetic, Electronic and Communication Eng. 2010;4;2:224 — 231.

10. Artsishevskiy Ya.L., Gieev B.M. Adaptatsiya ACHR k Peremennomu Urovnyu Otvetstvennosti Elektropriemnikov 0,4 kV. Energetik. 2017;8:18 — 21. (in Russian).

11. Gurov A.A., Sergunov Yu.A. Obosnovanie Metodiki Statisticheskogo Issledovaniya Provalov Napryazheniya v nSistemah Elektrosnabzheniya Obshchego Naznacheniya // Energobezopasnost' i Energosberezhenie. 2009. № 1 (25):15 — 20. (in Russian).
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For citation: Artsishevsky Ya.L., Giyoev B.M. A Procedure for Selecting the Parameters of Emergency Load Shedding Commands in 0.4 kV Networks. MPEI Vestnik. 2018;3:21—28. (in Russian). DOI: 10.24160/1993-6982-2018-3-21-28