Покращення захисних властивостей протиаварійної автоматики судових систем електропостачання
DOI:
https://doi.org/10.15589/evn20140104Ключові слова:
віддалене резервування, мікропроцесорний розчіплювач, релейний захистАнотація
Обґрунтовано актуальність підвищення чутливості апаратів релейного захисту до струмів віддалених коротких замикань при реалізації віддаленого резервування відмов захистів. Доведено можливість ідентифікації виду різкого зростання струму в перехідному режимі виникнення збурення електричного кола.Посилання
Baranov A.P. Sudovye avtomatizirovannye elektroenergeticheskie sistemy [Ship automated power systems]. Saint Peterburg, Sudostroenie Publ., 2005. 528 p.
Baru A.Yu., Bogatirov V.P., Shindnes Yu.L., Sereda A.G. Bystrodeystvuyushchaya sistema zashchity moshchnykh tiristornykh preobrazovateley na osnove tokoogranichivayushchikh avtomaticheskikh vyklyuchateley [Fast-acting system of the thyristor converters protection based on the current-limiting automatic circuit breakers]. Elektrotekhnika i elektromekhanika [Electrical Engineering & Electromechanics], 2002, no. 2, pp. 15−17.
Belyaev A.V. Vybor apparatury, zashchit i kabeley v setyakh 0,4 kV [Selection of the equipment, protection and cables in the 0.4 kV networks]. Saint Peterburg, PEIPK Publ., 2008. 230 p.
Belyaev A.V., Edlin M.A. Dalnee rezervirovanie otkazov zashchit i vyklyuchateley v setyakh 0,4 kV [Remote backup of the switches and protection failures in the 0.4 kV networks]. Elektricheskie stantsii [Electric stations], 2002. no. 12. pp. 51–55.
Bogomolov V.S. Sudovye elektroenergeticheskie sistemy i ikh ekspluatatsiya [Ship power systems and their operation]. Moscow, Mir Publ., 2006. 320 p.
Venttsel Ye.S., Ovcharov L.A. Teoriya veroyatnostey i ee inzhenernye prilozheniya [Probability theory and its engineering applications]. Moscow, KNORUS Publ., 2013. 480 p.
Vyklyuchateli avtomaticheskie tipa VA53-43 i VA55-43. Rukovodstvo po ekspluatatsii GZhIK.641353.014RE [Circuit breakers of the VА53-43 and VА55-43 types. GZhIK.641353.014RE Operation guide]. Kursk, KEAZ Publ., 2010. 33 p.
Kobozev A.S., Sereda A.G., Zhornyak L.B., Morgun V.V. Modernizatsiya zashchity elektroustanovok sobstvennykh nuzhd AES napryazheniem 0,4 kV [Modernization of the protection of the NPP electrical auxiliaries of the 0.4 kV voltage]. Elektrotekhnika ta elektroenerhetyka [Electrical engineering and electrical energy industry], 2012, no. 2, pp. 66−72.
Koboziev O.S., Sereda O.H. Sposib shvydkodiiuchoho maksymalnoho strumovoho zakhystu z vysokoiu chutlyvistiu do strumiv viddalenykh korotkykh zamykan [Method of the high-speed overcurrent protection with the high sensitivity to the remote short-circuit currents] Patent UA, no. 101084, 2011.
Haponenko H.M., Ahafonov Yu.M., Rassomakhin S.H., Shlokin V.M. Sposib maksymalnoho strumovoho zakhystu elektroustanovok [Method of the overcurrent protection of the electric plants] Patent UA, no. 73195, 2003.
Haponenko H.M., Omelchenko V.V., Koboziev O.S. Systema zakhystu rozghaluzhenykh tryfaznykh elektrychnykh kil vid strumiv viddalenykh korotkykh zamykan [System of the protection of the branched three phase electrical circuits from the remote short circuits] Patent UA, no. 81981, 2006.
Raynin V.Ye., Kobozev A.S. Vyklyuchateli s novymi zashchitnymi kharakteristikami dlya povysheniya kachestva zashchity elektricheskikh setey nizkogo napryazheniya [Switches with advanced protective properties for the quality improvement of the protection of the electrical networks of the low voltage]. Elektrotekhnika [Electrical engineering], 2010, no. 11, pp.18−24.
Raynin V.Ye., Kobozev A.S. Sovershenstvovanie zashchitnykh kharakteristik avtomaticheskikh vyklyuchateley nizkogo napryazheniya [Improvement of the protective properties of the automatic circuit breakers pof the low voltage]. Elektrotekhnika [Electrical engineering], 2009, no. 2, pp. 44−51.
Solovev A.L. Metodika rascheta ustavok zashchit Sepam [Method of calculation of the Sepam protection installations]. Tekhnicheskaya kollektsiya Schneider Electric [Schneider Electric Technical Collection], 2006, no. 3, 71 p.
Soskov A.G., Kobozev A.S. Modernizatsiya sistemy zashchity gorodskikh elektricheskikh setey 0,4 kV za schet ispolzovaniya mikroprotsessornoy tekhniki v rastsepitelyakh vyklyuchateley [Modernization of the system of protection of the urban 0.4 kV electric networks through the use of microprocessor technology in the circuit breaker trips]. Svitlotekhnika ta elektroenerhetyka [Lighting engineering and electrical energy industry], 2010, no.2, pp. 53−63.
TU 16-522.136-78. Vyklyuchateli avtomaticheskie serii AK50B. Tekhnicheskie usloviya (Automatic circuit breakers of the AK50B series. Specifications). Available at: http://www.etm.ru/files/ak50b.pdf (Accessed 03 November 2013).
Garlapati S., Hua Lin, Sambamoorthy S., Shukla S.K., Thorp J.S. Agent Based Supervision of Zone 3 Relays to Prevent Hidden Failure Based Tripping. IEEE International Conference on Smart Grid Communications (4. 10 – 6.10.2010). 2010, pp. 256–261.
Tan J.C., Crossley P.A., Kirschen D., Goody J., Downes J.A. An Expert System for the Back-up Protection of a Transmission Network. IEEE Transactions on Power Delivery, 2000, vol. 15, issue 2, pp. 508−514.
Chowdhury B.H., Baravc S. Creating Cascading Failure Scenarios in Interconnected Power Systems. IEEE Power Engineering Society General Meeting (18.06 – 22.06.2006). Montreal, 2006.
Chang C.S., Feng T., Khambadkone A.M., Kumar S. Remote short-circuit current determination in DC railway systems using wavelet transform. Electric Power Applications IEE Proceedings, 2000, vol. 147, issue 6, pp. 520−526.
