Choose your region and language

Global
Argentina
Australia
Austria
Bahrain
Brazil
Bulgaria
Canada
Chile
China
Colombia
Czech Republik
Denmark
Egypt and North Africa
Finland
France
Germany
Greece
Hungary
India
Indonesia
Iraq
Ireland
Italy
Japan
Jordan
Kuwait
Malaysia
Mexico
New Zealand
Norway
Oman
Pakistan
Panama
Peru
Philippines
Poland
Portugal
Qatar
Saudi Arabia
Singapore
Slovakia
South Africa
South Korea
Spain
Sweden
Switzerland
Taiwan, China
Thailand
Türkiye
Ukraine
United Arab Emirates
United Kingdom
United States
Vietnam
English
Spanish
English
German
English
Portuguese
English
English
French
Spanish
Chinese
Spanish
English
English
English
English
French
German
English
English
English
English
English
Italian
Japanese
English
English
English
Spanish
English
English
English
Spanish
Spanish
English
Polish
English
English
English
English
English
English
English
Spanish
Swedish
German
French
Italian
English
English
English
English
English
English
English
English
Go

Menu

hvdc kriegers flakcgs site bentwisch 2019-11-13
Customer Success Story

Kriegers Flak Combined Grid Solutions

Integrating renewable power and enabling energy trade between Denmark and Germany


Energinet.dk SOV, (Denmark) and 50Hertz Transmission Gmb (Germany) awarded Hitachi Energy the contract to supply a complete turnkey, back-to-back HVDC converter station that interconnects the power grids of Denmark and Germany and three offshore wind farms.

Hitachi Energy technical solution demonstrates how new HVDC hybrid solutions can optimize power grids and make new and larger applications of offshore wind possible to further support EU targets for achieving climate neutrality by 2050.

The HVDC system helps secure the energy supply in both countries as well as supports energy trading cross border and reliably integrates the three offshore wind farms called Baltic 1, Baltic 2 and Kriegers Flak.

The innovative hybrid HVDC Light system digital master controller manages the complex task of controlling the entire Kriegers Flak Combined Grid Solution. By adjusting power flows in real-time, the system integrates and supports the wind farms and the two asynchronous AC power grids in Denmark and Germany, ensuring sustainable and reliable energy to consumers.

The 410 MW/150kV converter station is located in Bentwisch, northern Germany where it connects the Kriegers Flak offshore grid, part of the Danish electricity network, to the German network. The economic back-to-back set-up minimizes the environmental footprint of the installation.

Hitachi Energy have designed, engineered, supplied and installed the full hybrid HVDC solution, including high-voltage equipment such as power transformers, converter valves, cooling systems, the state-of-the art MACH control and protection system, and the unique digital master controller.

HVDC Light® technology provides sophisticated features to the network such as the “black-start” power restoration capability and exceptional power control enabling the system to stabilize the AC grid to manage the constant changes in the generation and load.

Map for Kriegers Flak project between Denmar and Germany
Main data
Commissioning year: 2019
Configuration: Back-to-back
Power transmitted: 410 MW
Application: Interconnecting grids
Back-to-back technology
Hitachi Energy HVDC converter valve hall in Kriegers Flak Combined Grid solution. The heart of the system, managing the conversion of power from AC to DC and back to AC for reliable integration into the AC-grid.
Guy in valve hall
Hitachi Energy's innovative multi-purpose solution helps the green energy transition and is another step towards carbon-neutral energy systems.
Site in daylight
Kriegers Flak Combined Grid Solution HVDC Back-to-back converter station - The hybrid HVDC Light system master controller manages the complex task of controlling the entire Kriegers Flak Combined Grid Solution. By adjusting power flows in real-time, it integrates and supports three offshore wind farms and the asynchronous AC power grids in Denmark and Germany, ensuring sustainable and reliable power to consumers.