Successful completion of HVDC gas-insulated switchgear (GIS) test prototype installation

First time HVDC GIS technology equipment is tested in an independent commercial laboratory, enabling a significant increase on the technology readiness level ladder.

PROMOTioN HVDC GIS set-up for testing

Today the installation of the 320 kV high-voltage direct current gas insulated switchgear prototype was successfully completed in DNV GL's KEMA High Voltage DC Laboratory in Arnhem, Netherlands. After several months of design, manufacturing, transport, assembly and pre-testing, this event marks an important milestone in the PROMOTioN project. This is the first time that such equipment will be tested in an independent commercial laboratory. Later this year long term testing will commence to independently verify and demonstrate that this HVDC GIS technology is ready for real world application and achieve cost savings in future offshore HVDC converter stations and switchyards.

Switchgear is necessary to connect cables and lines to one another to form a power transmission network. They are important nodal points in modern power systems and are used both to de-energize equipment to allow work to be done and to reconfigure the network to improve performance and reliability. The benefit of using gas insulated switchgear (GIS) over conventional air-insulated technology is a 70 - 95% reduction in required volume, realizing significant cost-savings in applications where space comes at a premium such as offshore or in urban environments.

High-voltage direct current (HVDC) technology is essential to transport large amounts of power over long distances. For long-distance transmission, HVDC technology may be less expensive and suffer lower electrical losses. HVDC GIS will play a key role in achieving the EU’s renewable energy and interconnection targets by enabling the cost-effective connection of remote offshore wind farms and submarine links. 

Whereas gas-insulated technology for alternating current (AC) applications is mature, the application to HVDC is not. A lack of operational experience, standardised test programmes and commercially available products have hindered the uptake of the technology. To increase trust and acceptance of HVDC GIS, DNV GL’s consultants and test engineers have worked closely with industry stakeholders to formulate a meaningful and comprehensive long-term prototype test programme which was confirmed during a workshop with 26 international experts.

According to Bas Verhoeven, business director of DNV GL’s KEMA High Voltage Laboratory: “DNV GL’s high-voltage equipment expertise, testing know-how and independent position supports the industry wide adoption of the proposed test programme. This enables HVDC GIS to make a significant increase on the technology readiness level ladder which is a necessary step towards solving the trilemma of a clean, affordable and reliable energy transition in Europe.”

The test programme will take over a year and, when finished, provide independently verified evidence of the maturity of the HVDC GIS technology, such that it can be considered a proven and accepted tool in TSO’s offshore HVDC grid planning toolbox.

PROMOTioN project
The PROMOTioN project aims to tackle technical, regulatory, financial and legal challenges to the implementation of offshore meshed HVDC transmission networks. The consortium consists of 33 partners ranging from all major European HVDC equipment manufacturers, TSOs and academia to test labs and consultants. This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 691714.

DNV GL takes a leading role in the PROMOTioN project as coordinator of the consortium, and by leading and participating in work packages dedicated to full power demonstration of HVDC circuit breakers, inverter harmonic model validation, cost benefit analysis methodology development, cost data collection, HVDC grid control and technical standardisation.

Promotion project team 
PROMOTioN project team @ DNV GL HQ

More information about future-proof grids


PROMOTioN project site

PROMOTioN seeks to develop meshed HVDC offshore grids on the basis of cost-effective and reliable technological innovation.


PROMOTioN press release

PROMOTioN is funded under the EU Horizon2020 research programme


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