HVDC Volgograd-Donbass

Country	Russia Ukraine
From	Volzhskaya Converter Station (Volga Hydroelectric Station) 48°49′34″N 44°40′20″E / 48.82611°N 44.67222°E / 48.82611; 44.67222 (Volzhskaya Converter Station)
To	Mikhailovskaya Converter Station 48°39′13″N 38°33′56″E / 48.65361°N 38.56556°E / 48.65361; 38.56556 (Mikhailovskaya Converter Station)
Type	overhead line
Type of current	HVDC
Total length	475 km (295 mi)
No. of transmission towers	1417 (main line), 114 (electrode line Volgograd), 140 (electrode line Ukraine)
Power rating	750 MW
DC voltage	±400 kV (100 kV)

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The HVDC Volgograd–Donbass is a 475 kilometres (295 mi) long bipolar ±400 kV high voltage direct current powerline used for transmitting electric power from Volga Hydroelectric Station at Volgograd in Russia to Donbass in eastern Ukraine and vice versa.

The Volgograd–Donbass system was the second HVDC scheme built in the former Soviet Union, following the Moscow–Kashira HVDC scheme which has already been shut down. The Volgograd–Donbass system can transfer a maximum power of 750 MW. When completed in 1965, its operating voltage of ±400 kV was the highest in the world, and remained so until the completion of the ±450 kV Nelson River scheme in 1977. The scheme is today in a bad state and only operated with a voltage of 100 kV. Nevertheless, it is still being modernized, as a Google Map Picture of its crossing with M-4 motorway at 48°49′41″N 40°24′11″E / 48.82806°N 40.40306°E / 48.82806; 40.40306 (HVDC Volgograd-Donbass crosses M-4 motorway) shows, where one can see that new pylons for the crossing of the motorway are under construction.

The terminal at Volga Hydroelectric Station, Volzhskaya converter station, is situated on the dam of the power plant at 48°49′34″N 44°40′20″E / 48.82611°N 44.67222°E / 48.82611; 44.67222 (Volzhskaya converter station). Each of the poles consist of four series connected three-phase valve bridges, which form two series connected twelve pulse bridges. Originally all valves of the scheme were mercury arc valves designed for a voltage of 100 kV and a maximum current of 938 Amperes. Unusually for valves of such high current rating, each valve used only a single anode but because the peak reverse voltage rating was quite limited, two valves were connected in series in each converter arm. The valves used oil-cooled cathode tanks and natural air-cooled anode insulators, with internal grading electrodes inside the porcelain. Each valve stood 3.5 m tall and weighed about 2 tonnes.

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