The Vyborg HVDC scheme is a system of electricity transmission from the Russian power system to Finland, using high-voltage direct current. It consists of four 355 MVA (250 MW) back-to-back converter blocks, the first three of which were completed in the early 1980s[1] and the last in January 2001.[2] Much of the original converter equipment has been refurbished or modernised.
Electricity transmission from the 330 kV Russian (then the Soviet Union) system to the 400 kV Finnish system started in 1981. As the Russian and Finnish power systems are asynchronous, a direct AC connection was not possible and a HVDC-back-to-back station was needed. It was decided to build the substation near Vyborg in the Leningrad region. The first unit of the substation was commissioned in December 1981 followed by the second unit in the autumn 1982 and the third unit in the summer 1984. The system was manufactured by the Ministry for Electrotechnical Industry of the USSR.[3] A fourth unit was added in 2001[2] and the control and protection equipment of the three original poles has subsequently been modernised.[4] In contrast to most other HVDC plants, its converters did not originally allow bidirectional energy to transfer, but only from Russia to the power grid of Finland. It was also the only back-to-back HVDC system in Russia[1] and the only fully operational HVDC system in Russia, the others having either been shut down (Moscow–Kashira), never completed (Ekibastuz–Tambov) or are operated only at reduced capacity (Volgograd–Donbass).
On 13 May 2022, RAO Nordic released a statement saying they were halting the import of power into Finland due to lack of payment. Power transmission halted at 2200 GMT 13 May 2022.[5]
The Vyborg substation is located 9 kilometres (5.6 mi) east of Vyborg at 60°40′49″N28°55′07″E / 60.68028°N 28.91861°E / 60.68028; 28.91861. It is connected with the Russian and Finnish high-voltage power systems. The substation is connected to the Russian power system with two 330 kV lines to Vostochnaya substation and with one line to Kamennogorskaya substation.[3] It is connected with Finland with three 400 kV cross-border connections to Yllikkälä (two lines) and Kymi (one line) substations.[6]
The substation consist of four independent, parallel symmetrical monopole (centre-grounded) back-to-back units, each rated 355 MVA and operating with a voltage of ± 85 kV. Each pole consists of a single Twelve-pulse bridge at each end and was built using thyristors from the outset. The first three poles were originally built using small (60 mm) diameter thyristors with three in parallel at each level, but these were later replaced by larger 80 mm thyristors which did not require parallel connection.[7]
The converter transformers are of the relatively unusual single-phase, four-winding arrangement, with a 38.5 kV filter winding on which the tuned filters are connected. Other high-pass filters are connected directly to the 330 kV or 400 kV AC busbars. With a total transmission rating of 1000 MW, Vyborg was the world's largest HVDC-back-to-back facility until the 1800 MW Al-Fadhili facility was completed in Saudi Arabia in 2009.[8]
^ abCompendium of HVDC schemes, CIGRÉ Technical Brochure No. 003, 1987, pp. 129–134.
^ abIvakin, V.N., Kovalev, V.D., Lazarev, N.S., Lytaev, R.A., Mazurenko, A.K., Balyberdin, L.L., Kraichik, Y.S., Smirnov, A.A., Experience of reconstruction and expansion of Vyborg back-to-back HVDC link, CIGRÉ session, Paris, 2002, paper reference 14-103.
^ ab"Intersystem agreement on 400 kV cross-border connections Russia–Finland" (PDF). Fingrid. 28 December 2007. Retrieved 24 April 2010.
^Tsfasman, G., Mazurenko, A., Mordcovich, A., Tarasov, A., Zmaznov, E., Bastunsky, A., Lubarsky, D., Prochan, G., Popov, A., Rossovsky, E., New integrated control and protection system for VYBORG back-to-back HVDC link, CIGRÉ session, Paris, 2008, paper reference B4-102.
^"Russia's Inter RAO to halt power exports to Finland due lack of payment". Reuters. 13 May 2022.
vyborg, hvdc, scheme, system, electricity, transmission, from, russian, power, system, finland, using, high, voltage, direct, current, consists, four, back, back, converter, blocks, first, three, which, were, completed, early, 1980s, last, january, 2001, much,. The Vyborg HVDC scheme is a system of electricity transmission from the Russian power system to Finland using high voltage direct current It consists of four 355 MVA 250 MW back to back converter blocks the first three of which were completed in the early 1980s 1 and the last in January 2001 2 Much of the original converter equipment has been refurbished or modernised Vyborg back to back HVDC converter stationLocationCountryRussiaStateKarelian ASSRCoordinates60 40 49 N 28 55 07 E 60 68028 N 28 91861 E 60 68028 28 91861 Vyborg Back to Back HVDC Station FromVyborg RussiaToFinlandOwnership informationOwnerMinistry for Electrotechnical Industry Soviet UnionConstruction informationInstaller of substationsMinistry for Electrotechnical Industry Soviet UnionCommissioned1981 1984 2001Decommissioned14 May 2022Technical informationTypeBack to BackType of currentHVDCTotal length0 km 0 mi Power rating4 x 355 MVA 4 x 250 MW DC voltage 85 kVNo of poles4 symmetrical monopoles Contents 1 History 2 Technical description 3 See also 4 References 5 External linksHistory editElectricity transmission from the 330 kV Russian then the Soviet Union system to the 400 kV Finnish system started in 1981 As the Russian and Finnish power systems are asynchronous a direct AC connection was not possible and a HVDC back to back station was needed It was decided to build the substation near Vyborg in the Leningrad region The first unit of the substation was commissioned in December 1981 followed by the second unit in the autumn 1982 and the third unit in the summer 1984 The system was manufactured by the Ministry for Electrotechnical Industry of the USSR 3 A fourth unit was added in 2001 2 and the control and protection equipment of the three original poles has subsequently been modernised 4 In contrast to most other HVDC plants its converters did not originally allow bidirectional energy to transfer but only from Russia to the power grid of Finland It was also the only back to back HVDC system in Russia 1 and the only fully operational HVDC system in Russia the others having either been shut down Moscow Kashira never completed Ekibastuz Tambov or are operated only at reduced capacity Volgograd Donbass On 13 May 2022 RAO Nordic released a statement saying they were halting the import of power into Finland due to lack of payment Power transmission halted at 2200 GMT 13 May 2022 5 Technical description editFor substation locations see Kamennogorsk and Kymi Finland The Vyborg substation is located 9 kilometres 5 6 mi east of Vyborg at 60 40 49 N 28 55 07 E 60 68028 N 28 91861 E 60 68028 28 91861 It is connected with the Russian and Finnish high voltage power systems The substation is connected to the Russian power system with two 330 kV lines to Vostochnaya substation and with one line to Kamennogorskaya substation 3 It is connected with Finland with three 400 kV cross border connections to Yllikkala two lines and Kymi one line substations 6 The substation consist of four independent parallel symmetrical monopole centre grounded back to back units each rated 355 MVA and operating with a voltage of 85 kV Each pole consists of a single Twelve pulse bridge at each end and was built using thyristors from the outset The first three poles were originally built using small 60 mm diameter thyristors with three in parallel at each level but these were later replaced by larger 80 mm thyristors which did not require parallel connection 7 The converter transformers are of the relatively unusual single phase four winding arrangement with a 38 5 kV filter winding on which the tuned filters are connected Other high pass filters are connected directly to the 330 kV or 400 kV AC busbars With a total transmission rating of 1000 MW Vyborg was the world s largest HVDC back to back facility until the 1800 MW Al Fadhili facility was completed in Saudi Arabia in 2009 8 See also editHigh voltage direct current HVDC converter Moscow Kashira HVDC transmission system HVDC Volgograd Donbass HVDC Ekibastuz CentreReferences edit a b Compendium of HVDC schemes CIGRE Technical Brochure No 003 1987 pp 129 134 a b Ivakin V N Kovalev V D Lazarev N S Lytaev R A Mazurenko A K Balyberdin L L Kraichik Y S Smirnov A A Experience of reconstruction and expansion of Vyborg back to back HVDC link CIGRE session Paris 2002 paper reference 14 103 a b Intersystem agreement on 400 kV cross border connections Russia Finland PDF Fingrid 28 December 2007 Retrieved 24 April 2010 Tsfasman G Mazurenko A Mordcovich A Tarasov A Zmaznov E Bastunsky A Lubarsky D Prochan G Popov A Rossovsky E New integrated control and protection system for VYBORG back to back HVDC link CIGRE session Paris 2008 paper reference B4 102 Russia s Inter RAO to halt power exports to Finland due lack of payment Reuters 13 May 2022 Vyborg HVDC scheme Bonneville Power Administration Archived from the original on 30 August 2006 Retrieved 24 April 2010 Kovalev V D Khoudiakov V V Mazurenko A K Taratuta I P Balyberdin L L Kazarov S S Operation experience of Vyborg back to back HVDC link CIGRE session Paris 1998 paper reference 14 108 Barrett B T MacLeod N M Sud S Al Mohiasen A I Al Nasser R S Planning and design of the AL FADHILI 1800 MW HVDC inter connector in Saudi Arabia CIGRE session Paris 2008 paper reference B4 113 External links edithttps web archive org web 20051115135709 http www transmission bpa gov cigresc14 Compendium Vyborg Pictures pdf Retrieved from https en wikipedia org w index php title Vyborg HVDC scheme amp oldid 1200240603, wikipedia, wiki, book, books, library,
