On January 24, 2018, the most powerful high-voltage direct-current (HVDC) transformer began its journey from the transformer factory in Nuremberg, Germany, to China. The transformer will first be transported to the harbor in Nuremberg by special heavy load transporter, where it will be loaded onto a ship. Its journey will take it to Rotterdam via the Main-Danube Canal, and from there it will be shipped to China, where it will arrive after several weeks on the high seas. In July 2016, Siemens received an order to manufacture four transformers of this type. About a year later, the world’s first 1,100 kV transformer was completed and successfully passed the tests in the testing facility. The enormous dimensions of the transformer – 37.5 meters long, 14.4 meters tall, and 12 meters wide – posed a logistical challenge for the team. In operation, the transformer weighs just under 900 tons and its efficiency is well above 99% of the rated power. For the first time, the transformer will enable a high-voltage direct-current (HVDC) transmission with low losses over a record distance of 3,284 kilometers with a transmission capacity of 12 gigawatts. HVDC transformers are part of the converter station that convert alternating current into direct current at the beginning of the transmission line and convert it back again at the end of the line. The conversion from alternating current to direct current helps to transmit energy over long distances with low losses. Transformers are key components of an HVDC line: Thanks to the transformer, the Changji-Guquan project will be able to transmit direct current with a huge 1,110 kilovolts for the first time in the world. The new transformer not only makes the transmission of this record voltage level possible, but it is also the world’s most powerful tested transformer with a capacity of 587 megavoltamperes. Siemens has thus achieved a new dimension in high-voltage direct-current transmission. The HVDC line between Changji and Guquan will be operated by State Grid Corporation (SGCC), a Chinese grid operator. The connection is expected to begin operation in 2019.
provides the key to success in this complex energy environment that is
characterized by an increasingly decarbonized and distributed energy landscape.
It makes interconnected and intelligent solutions for power transmission
systems possible that ensure the reliable and safe supply of power for the
years to come. At Hannover Messe 2021, Siemens Energy presented new digital
power transmission technologies for the development of more intelligent, safer
and even more efficient power grids.
Wind energy is at the center of the transition to a less carbon-intensive and more sustainable energy system. Although the share of renewables in global electricity generation is rising, renewable power as a whole still needs to expand to meet decarbonization targets set by governments around the world. Siemens Energy is committed to driving this potential into real growth for the future of renewable power and offers a whole range of power transmission equipment, grid access solutions and services for the wind industry. To
date Siemens Energy received orders for 21 grid connections with more
than 12 gigawatts of offshore wind and produced more than 4,000 units of
sustainable high-voltage products such as distribution transformers and
switchgear for original equipment manufacturer of wind turbines.
Clean electricity for up to one million Scottish households
is leading the market for the grid connection of offshore wind power
In a world’s first, Siemens Energy is connecting
three Offshore Transformer Modules® (OTM®), its range of AC offshore substation
platforms, and will transmit the power generated from the 950MW Moray East
Offshore Windfarm project, located 22km off the Aberdeenshire coast in Scotland.