Науковий вісник НГУ

Characteristic of monostable actuator starting

User Rating:  / 1

Details

Category: Electrical engineering

Last Updated on Monday, 21 July 2014 14:38

Published on Tuesday, 24 December 2013 15:25

Hits: 4494

Authors:

Ye.I. Bayda, Cand. Sci. (Tech.), Associate Professor, National Technical University “Kharkiv Polytechnic Institute”, Senior Lecturer of the Department of Electrical Apparatus, Kharkov, Ukraine.

S.V. Vyrovets, National Technical University “Kharkiv Polytechnic Institute”, Senior Instructor of the Department of Electrical Apparatus, Kharkov, Ukraine.

Abstract:

Purpose. To approbate the mathematical model of nonstationary electromagnetic field calculation in nonlinear, non-uniform, conductive medium taking into account the rotor motions of the polarized monostable actuator with permanent magnets, and to determine the starting parameters depending on the storage capacitor’s voltage value.

Methodology. We have applied the mathematical simulation of electromagnetic field in nonlinear, conductive, movable medium taking into account the equation of the electrical field of the coil and motion dynamics of the movable elements. We have correlated the simulated result with the experimental data obtained by means of the polarized monostable actuator model.

Findings. We have developed the mathematical model for calculation of the nonstationary electromagnetic field in the polarized bistationary actuator taking into account the equation on-off electric circuit coil and equation of motion of reduced mass armature. We have obtained the dynamic characteristics of the monostable actuator vacuum switch of medium voltage. This allows us to examine the parameters of the switch response based on the received mathematical model and to design actuators according to the specification, and to choose optimal parameters of construction and reduce substantially the time and expenses needed for the models.

Originality. For the first time, we have carried out the integrated research of the monostable actuator with permanent magnets based on the combined equation calculation of electromagnetic field in non-uniform, non-linear conductive medium taking into account the armature transfer, electric line equation and movement.

Practical value. We havemanufactured the actuator models based on the performed calculation. The experimental studies have confirmed the adequacy of the model which allows designing such actuators for new construction of switches and upgrade the existing ones.

References:

1. Клименко Б.В. Электромагнитные приводы вакуумных выключателей средних напряжений / Б.В. Клименко, В.М. Бугайчук, А.М. Гречко // Вестник НТУ „ХПИ“. – 2004. – № 42. – С. 73–80.

Klimenko, B.V., Bugaychuk, V.M., Grechko, A.M. (2004), “Electromagnetic actuators of middle-voltage vacuum switches”, Vestnik NTU KhPI, no. 42, pp. 73–80

2. Лучшие инновации 2004 года [Электронный ресурс] / АББ Ревю. – 2005. – № 1. – 43 c. Режим доступа: http://abbreview.ru/archive/2005/1/p43.pdf.

ABB Revue (2005), “2004 The best innovation”, no. 1, p. 43, available at: http://abbreview.ru/archive/2005/1/ p 43.pdf (accessed January 2005)

3. Назарычев А.Н. Совершенствование системы проведения ремонтов электрооборудования электростанций и преимущества и недостатки вакуумных выключателей. [Электронный ресурс] / Назарычев А.Н. // Энергетика, оборудование, документация. – Режим доступа: http://forca.ru/spravka /vysokovoltnye - vyklyuchateli/preimu-schestva - i - nedostatki-vakuumnyh-vyklyuchateley. html

Nazarychev, A.N., “Power plant electrical equipment repair system improvement and vacuum switches’ advantages and shortcomings”, Energetika, oborudovaniye, dokumentatsyya, available at: http://forca.ru/spravka/vysokovoltnye-vyklyuchateli/preimuschestva-i-nedo-statki-vakuumnyh-vyklyuchateley.html

4. Преимущества вакуумных выключателей. [Электронный ресурс] // Рroektirovka.com. – Режим доступа: http://proektirovka.com/elektricheskie-apparaty-nap-ryazheniem-vyshe-1000-v/preimushchestva-vakuumnykh-vyklyuchateley/.

Рroektirovka.com, “Vacuum switches’ advantages” available at: http://proektirovka.com/elektricheskie-appa-raty-napryazheniem-vyshe-1000-v/preimushchestva-vakuumny-kh-vyklyuchateley/.

5. Евдокунин Г.А. Современная вакуумная коммутационная техника для сетей среднего напряжения / Г.А. Евдокунин, Г. Тилер. – СПб: Издательство Сизова М.П., 2000. – 114 с.

Evdokunin, G.A. (2000), Sovremennaya vaquumnaya kommutatsionnaya tekhnika dlya setey srednego napryazheniya [Modern Vacuum Commutation Technics for Middle-Voltage Circuits], Publishing House Sizova M.P., St.-Petersburg, Russia.

6. Назарычев А.Н. Анализ основных преимуществ вакуумных выключателей. [Электронный ресурс] / Назарычев А.Н. // БЭСТЕР Комплект. – Режим доступа: http:// www.bester54.ru/ cms.php?type= page&id=22.

Nazarychev, A.N. Analiz osnovnykh preimushchestv vakuumnykh vyklyuchateley [Vacuum Switches’ Main Advantages Analisis] available at: http: //www.bester54.ru/cms. php?type=page&id=22.

7. Преимущества и недостатки вакуумных выключателей. [Электронный ресурс] // Энергетика, оборудование, документация. – Режим доступа: http://forca.ru/spravka/vysokovoltnye-vyklyuchateli /preimuschestva-i-nedostatki-vakuumnyh-vyklyuchateley.html

“Vacuum Switches’ Advantages and Shortcomings”, Energetika, oborudovaniye, dokumentatsyya, available at: http://forca.ru/spravka/vysokovoltnye-vyklyuchateli/preimu schestva-i-nedostatki-vakuumnyh-vyklyuchateley. html

8. Байда Е.И. Влияние проводимости материала на динамические характеристики электромагнитных механизмов постоянного тока / Е.И. Байда // Электротехника и электромеханика. – 2010. – № 1. – С. 3–5.

Bayda, Ye.I. (2010), “Material conductivity influence on the direct-current electromagnetic mechanism dynamic characteristic”, Elektrotekhnika i elektromekhanika, Kharkiv HTU “KhPI”, no. 1, pp. 3–5.

9. Байда Е.И. Моделирование динамических характеристик электромагнитных механизмов постоянного тока с магнитной защёлкой / Е.И. Байда // Электротехника и электромеханика. – 2010. – № 2. – С. 3–5.

Bayda, Ye.I. (2010), “Dynamic characteristic design of direct-current electromagnetic mechanism with magnetic latch”, Elektrotekhnika i elektromekhanika, Kharkiv HTU “KhPI”, no. 2, pp. 3–5.

10. Байда Е.И. Расчет динамики двухпозиционного электромагнита постоянного тока с магнитной защёлкой / Е.И. Байда // Электротехника и электромеханика. – 2010. – № 4. – С. 10–12.

Bayda Ye.I. (2010), “Direct-current two-position electromagnet with magnetic latch dynamic calculation”, Elektrotekhnika i elektromekhanika, Kharkiv HTU “KhPI”, no. 4, pp. 10–12.

2013_6_bayda
2014-07-21  302.82 KB  803

• < Prev
• Next >