Windpower Engineering & Development

  • Home
  • Articles
    • Most recent posts
    • News
    • Featured
  • Resources
    • Digital issues
    • Podcasts
    • Suppliers
    • Webinars
    • Events
  • Videos
  • 2025 Leadership
    • 2024 Winners
    • 2023 Winners
    • 2022 Winners
  • Magazine
  • Advertise
  • Subscribe

Coming soon to a sea coast near you

By Michelle DiFrangia | August 15, 2014

Mammoet strand jack system installed on platform legs.

Mammoet strand jack system installed on platform legs.

A combination of three Dutch offshore companies realized a unique operation in the North Sea, installing the SylWin alpha platform. Siemens commissioned Seaway Heavy Lifting to perform an unusual operation that in turn called in the assistance of maritime contractor Dockwise and heavy lifting and transport specialist Mammoet.

Weighing 14,000 tons, the 83-m long, 56-m wide and 26-m high SylWin alpha platform, built by Siemens, is the largest of its kind. As it exceeds the lifting capacity of floating cranes, the ‘float-over method’ was applied to move it from a pontoon onto the already installed ‘jacket’ (the base of the platform). Previously, this approach had been used successfully in the Gulf of Mexico and in the Far East, but this was the first time the method was applied in the North Sea.

The platform was transported to the jacket on the pontoon, and subsequently positioned between the jacket legs. It was installed onto the legs of the jacket by ballasting the pontoon. Dockwise was responsible for this phase.

Mammoet then used strand jacks to lift the platform up to its final position on the jacket. Customized for this project, Mammoet devised a time-saving method that allowed fast installation and removal of the strand jacks, which saved nine days at one of the most crucial stages in the project.

The lifting equipment Mammoet utilized to elevate the platform is called the strand jack system, a hydraulic lifting system with multiple strand wires to lift a load. At the yard, prior to the operation at sea, 44 strand jacks with a capacity of 900 tons each, were installed on top of the 6 platform legs. The strand jacks were secured in a way that allowed for faster removal. The platform was elevated 15m in one day, after which the strand jacks were removed in only one week, making the platform ready for commissioning.

The SylWin alpha converter platform will serve as a ‘power socket’ for the DanTysk, Sandbank and Butendiek wind farms, which together comprise 240 wind turbines and represent a generating capacity of 864 MW. Grid manager TenneT, Siemens’ customer, is responsible for the connection of the wind farms to, in this case, the German high voltage grid. The SylWin alpha platform transforms the alternating current generated by the wind turbines into direct current that is transported via a 160-km long seabed cable and a 45-km long underground cable to the onshore Büttel high-voltage station.

As the SylWin platform exceeds the lifting capacity of floating cranes, the 'float-over method' was applied to move it from a pontoon onto the already installed ‘jacket’ (the base of the platform).

As the SylWin platform exceeds the lifting capacity of floating cranes, the ‘float-over method’ was applied to move it from a pontoon onto the already installed ‘jacket’ (the base of the platform).

Siemens
www.siemens.com

Seaway Heavy Lifting
www.seawayheavylifting.com.cy

Dockwise
www.dockwise.com

Mammoet
www.mammoet.com


Filed Under: News, Offshore wind
Tagged With: dockwise, mammoet, seawayheavylifting, siemens
 

Related Articles Read More >

US government allows Empire Wind offshore project to resume construction
Richardson Electronics to deliver pitch energy modules to TransAlta wind fleets
Equinor halts work on Empire Wind offshore project after federal government order
ARESCA wants input on offshore wind standards

Podcasts

Wind Spotlight: Looking back at a year of Thrive with ZF Wind Power
See More >

Windpower Engineering & Development Digital Edition

Digital Edition

Browse the most current issue of Windpower Engineering & Development and back issues in an easy to use high quality format. Clip, share and download with the leading wind power engineering magazine today.

Windpower Engineering & Development
  • Wind Articles
  • Solar Power World
  • Subscribe to Windpower Engineering
  • About Us/Contact Us

Copyright © 2025 WTWH Media LLC. All Rights Reserved. The material on this site may not be reproduced, distributed, transmitted, cached or otherwise used, except with the prior written permission of WTWH Media
Privacy Policy | Advertising

Search Windpower Engineering & Development

  • Home
  • Articles
    • Most recent posts
    • News
    • Featured
  • Resources
    • Digital issues
    • Podcasts
    • Suppliers
    • Webinars
    • Events
  • Videos
  • 2025 Leadership
    • 2024 Winners
    • 2023 Winners
    • 2022 Winners
  • Magazine
  • Advertise
  • Subscribe