Nexans
Newequipment 8474 Fghf
Newequipment 8474 Fghf
Newequipment 8474 Fghf
Newequipment 8474 Fghf
Newequipment 8474 Fghf

World's First 66 kV Offshore Wind Farms

Oct. 16, 2018
Nexans has been involved in three pioneering 66 kV wind farm pilot projects in the North Sea over the past two years.

As offshore wind turbines continue to grow in size and power output, wind farm developers and operators are preparing to switch over to 66 kV technology rather than the current 33 kV technology. This is because operating at the higher voltage offers important life cycle cost-efficiency benefits such as the possibility of reducing the number of substations required as well as reducing the length of cables that need to be installed.

From the first half of 2018, the advantages of 66 kV technology have been demonstrated in three pilot projects; the Blyth Offshore Demonstrator (UK), Nissum Bredning Vind (DK), and Aberdeen Bay (UK) wind parks are all successfully connected to the grid and generating power.

Nexans has played an important role in these projects by supplying a range of products and accessories including 66 kV sea cables (array and export cables), power cable accessories (equipment bushings, connectors, coupling connectors, surge arresters, dead-end receptacles, junction cabinets), GPH connection technology, and pre-assembled cables.

The Blyth Offshore Demonstrator, 6 km off the UK coast, is a pilot plant constructed by the Renewable Energies Division of the French energy group EDF. With a total capacity of 41.5 MW, produced by five V164-8.0 turbines from MHI Vestas Offshore Wind, it has produced low-carbon power for about 34,000 homes since January 2018.

Nexans delivered pre-assembled cable jumpers to connect transformers and switchgear, sea cables for the array cabling, and connectors to connect the array cables to the wind turbine switchgear. The transformers were assembled with EUROMOLD bushings and surge arresters. In addition, pre-assembled junction cabinets, export cables, and connectors to connect the wind park to the existing power grid were used.

The cable lengths were pre-assembled and electrically tested at Nexans Power Accessories in Hof, Germany. The installation teams were comprehensively trained in how to use the EUROMOLD connectors and the GPH connection technology at the Nexans HV Training Center in Hof in order to make future projects as safe and efficient as possible. The sea cables, with a diameter of 127 mm, were produced in Hanover and delivered in one continuous length in 2017.

The general contractor responsible for the Nissum Bredning Vind project is Siemens Wind Power A/S. In the Danish North Sea, four Siemens Gamesa turbines of the SWT-7.0-154 type with a total capacity of 28 MW were installed. Nexans delivered EUROMOLD connectors and three core cables for the tower cabling, equipment bushings, and surge arresters to the Siemens transformer plant in Weiz/Austria and connectors to connect the array and export cabling. The installation teams were trained at Nexans in Hof.

Located off the Scottish North Sea coast, the Aberdeen Bay Vattenfall project, also known as the Offshore Wind Deployment Centre (EOWDC), represents the largest of the three European pilot plants with 11 V164-8.4 and V164-8.8 turbines especially engineered by MHI Vestas Offshore Wind and an installed total capacity of 92.4 MW.

In addition to training in the installation of accessories, Nexans Power Accessories was also responsible for manufacturing 66 kV cable jumpers to connect the transformers and switchgear. The accessories and cable jumpers were shipped via the cable plant in Moenchengladbach, Germany. Equipment bushings and surge arresters were shipped to ABB Finland, the transformer manufacturer.

Nexans is currently the world's only supplier that is able to equip this new generation of wind parks with a complete in-house portfolio of state-of-the-art cables and standardized connection solutions suitable for a maximum operating voltage of 72.5 kV.

The 66 kV installations to date are pilot projects and the experience and results obtained will have significant impacts on future offshore wind projects.