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Offshore Substructure Design Solutions

OWEC Tower offers design solutions for offshore substructures in the renewable energy sector.

 

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Ormonde wind farm

OWEC Tower is a technology company offering design solutions for offshore substructures in the renewable energy sector.

Through world-leading technology and special offshore wind foundations competence, ISO 9001-certified OWEC Tower maintains a wide and experienced network, including yards, contractors and installation companies.

Established in Bergen in 2004, OWEC Tower has installed 88 foundations, which equates to installed power of 484MW.

OWEC Quattropod is installed at the Ormonde Offshore Wind Farm project, a large-scale wind farm situated in the Irish Sea, UK.

OWEC Quattropod® an innovative wind turbine substructure

OWEC Tower’s main product is the OWEC Quattropod®, a complete wind turbine substructure, which includes a transition piece and jacket foundation. It is especially suitable for larger turbines, deeper water and demanding soil conditions. The innovative design of OWEC Quattropod® is based on 40 years of offshore structural design experience.

OWEC Quattropod® is the only wind turbine jacket foundation designed, certified and installed offshore, and the only proven substructure with pre-installed piles. The substructure was recently deployed at the Ormonde Offshore Wind Farm project, with 30 foundations installed in the Irish Sea; and Thornton Bank Phase II, with 48 units and 1 Offshore Transformer Station situated in Belgian waters.

This wind turbine substructure is fabrication friendly and proven for serial production. It is designed for efficient installation and has remarkable adaptability to different concepts such as suction buckets, gravity based and drilled piles. In addition, the substructure is focused on interfaces, including wind turbine, manufacturing and installation requirements.

Technical and operational advantages comprise:

  • No seabed preparation is normally required
  • OWEC Quattropod® is designed so that no scour protection is needed. Adaptable for a wide range of water depths from onshore / shoreline to deeper waters
  • Provides a wide range of installation tolerances to reduce the complexity of operations
  • Variation in seabed level can be adapted by adjusting pile stick-up length and/or OWEC Quattropod®’s height, keeping the number of clusters required for an offshore wind farm’s water depth range to a minimum
  • Helps in meeting environmental regulations, by providing small-diameter piles for OWEC Quattropod®, which produces less noise during installation compared with monopile concepts
  • Adaptable to small and large capacity turbines (3MW-8MW)
  • Can be easily designed to meet the frequency requirements of the wind turbine generator (WTG) manufacturer
  • Midsection (transition piece) is designed to transfer forces efficiently, allowing for a simplified OWEC Quattropod® concept, which reduces total cost
  • Designed to comply with Construction Design and Management regulations for specified site requirement

Feasibility assessments, selection studies and conceptual foundation design studies

OWEC Tower has a comprehensive study portfolio and can offer studies for different wind turbine types, including the largest turbines (up to 10MW).

The company offers feasibility assessments and selection studies for:

  • Monopiles vs GBS vs tripods vs three-legged jackets vs four-legged jackets
  • Pre-piled vs post-piled vs suction bucket vs gravity caisson vs drilled pile foundations
  • Welded joints vs cast joints
  • Midsection (transition piece) layout

Conceptual foundation design studies (including preliminary pile design) are also offered:

  • Using the OWEC Quattropod® concept, which can also be adapted for three-legged jackets
  • Using other wind turbine foundation concepts (monopiles, tripod, gravity based), in cooperation with leading specialists

Wind farm project references

OWEC Tower has worked on many high-profile wind farm projects and studies, including Beatrice in Scotland, alpha ventus in Germany, Ormond in the UK,Thornton Bank II in Belgium and Le Carnet in France.

OWEC Tower has worked on projects for: A2Sea, Alstom, Burntisland Fabrications (‘BiFab’), DEME, Deepwater Wind, GE, Hochtief, Iberdrola, Innovent, MT Højgaard, Norsk Hydro, NorWind, Norther, ODE, Poweo, REpower, RWE, Smulders, Statkraft, STX, Talisman, Tecnova, Vattenfall, Vestas, Havsul, WPD, Samsung.

Offshore jackets for demo sites and WTG prototypes

OWEC Tower has experience of working on demo and test sites for offshore wind projects.

In 2011, the company designed a jacket foundation for the Haliade 150-6MW wind turbine from Alstom in Le Carnet, France, and showed its ability to simplify the design process as much as possible to suit the project schedule. However, OWEC Tower was still able to provide innovation on the midsection of the prototype to avoid the use of expensive fabrication items with long lead times, such as castings.

The Beatrice Wind Farm Demonstrator Project for Talisman and SSE included the first jacket-based design installed in offshore wind. After a comprehensive screening/FEED study Beatrice was originally planned with tripods but OWEC Quattropod® was chosen late in the project.The water depth of 45m was a record together with the wind turbine size, the REpower 5MW.

Advantages of offshore windpower production

It is predicted that offshore wind farms have the potential to generate up to five times the present global electricity production.
With stronger and more stable wind resources, offshore wind farms can be operated in large, open areas, with no noise restrictions, utilising larger wind turbine generators, typically up to 10MW, to produce more energy.

Wind farm developments are moving to deeper waters and larger wind turbines. The OWEC Quattropod® is well-positioned for these challenges and the company’s exclusive dedication to offshore wind substructures will be of high value for project developers.

About OWEC Tower

OWEC Tower is a dedicated and experienced offshore wind partner with interface understanding and strong network based on hands-on experience. With a deep awareness of the supply chain for offshore wind, OWEC Tower’s design and experience helps to reduce offshore wind project costs.

OWEC Tower has provided design solutions for offshore substructures in line with certification processes, including DNV, GL and BSH.

OWEC Tower is supported by strong financial industry owners, including Keppel Ventus BV, which is a large shareholder. This strength allows for further development of our company, access to a wider network of engineering capacity and a broader capability to handle projects of any size.

Projects

  • Hywind Pilot Park, Aberdeenshire

    Touted to become the world's biggest floating wind farm, Hywind Pilot Park will be situated at Buchan Deep in the North Sea, approximately between 25km and 30km off the coast of Peterhead in Aberdeenshire, Scotland.

  • Westermeerwind Wind Farm

    Westermeerwind is a 144MW wind farm in the shallow waters of IJsselmeer, the biggest lake in the Netherlands.

  • Horns Rev 3 Offshore Wind Farm

    Horns Rev 3 is a 400MW offshore wind farm proposed to be built off the west coast of Denmark by Swedish state-owned energy company Vattenfall Vindkraft.

  • Neart Na Gaoithe Offshore Wind Farm

    The Neart Na Gaoithe offshore wind farm is a 448MW project that Mainstream Renewable Power, a global wind and solar company, proposed to develop in the North Sea off the east coast of Scotland.

  • Macarthur Wind Farm

    Macarthur is a 420MW wind farm near Hamilton, 260km west of Melbourne, Victoria, Australia.

Address
OWEC Tower AS
Storetveitveien 96
Bergen N-5072
Norway

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OWEC Tower AS
PO Box 6026 Bedriftssenter
5892 Bergen
Norway