Dogger Bank A&B

Project Overview

WT has been appointed to carry out the detailed design for WTG foundations for the A and B phases of the Dogger Bank project. In a geotechnically complex area, WT designers pushed boundaries to deliver holistically optimised foundations for this project, supporting the first in a new generation of offshore turbines. Working closely with our client, an innovative secondary steel solution was pioneered to reduce operational and installation safety risks.
Turbines
190
Capacity
2470MW
  • Primary Steel Design
  • Geotechnical Interpretation and Design
  • Secondary Steel Design
  • Low Voltage Electrical Design
  • Transportation and Installation Engineering Support

East Anglia Hub

Project Overview

Originally involved at FEED stage demonstrating the feasibility of monopiles at the East Anglia 3 site with large turbines and deep water, WT’s involvement grew to the full detailed design scope for the combined development of the East Anglia 3, East Anglia 2 and East Anglia 1 North sites. Currently undergoing the final phases of design, WT’s sophisticated analysis and design refinement continues to deliver major CAPEX savings and risk reductions to our client, Iberdrola.
Turbines
263
Capacity
3100MW
  • Primary Steel Design
  • Geotechnical Survey Support (Geophysical)
  • Geotechnical Interpretation and Design
  • Secondary Steel Design
  • Low Voltage Electrical Design
  • Transportation and Installation Engineering Support

Vineyard Wind 1

Project Overview

Following a successful concept and FEED stage, WT, along with local partner WSP, designed foundations for the Vineyard Wind 1 Offshore Wind Farm. This pioneering project is the first commercial scale offshore wind farm in the USA and we were proud to provide expert support to navigate the rigorous federal government approvals process.
Turbines
62
Capacity
804MW
  • Primary Steel Design
  • Geotechnical and Geotechnical survey support
  • Geotechnical Interpretation and Design
  • Cable Route Engineering
  • Secondary Steel Design
  • Transportation and Installation Engineering Support

Kriegers Flak

Project Overview

Wood Thilsted provided expert geotechnical-focussed support to this 605MW offshore wind farm in the Danish Baltic Sea. Through our sophisticated geotechnical FE modelling capabilities, we provided interpretation, critical input and support to the foundation design as well as detailed predictions for pile driving analysis.
Turbines
72
Capacity
605MW
  • Geophysical and geophysical survey support
  • Geotechnical Interpretation and Design
  • Driveability Assessment
  • Transport support

Thor

Project Overview

WT is delighted to have been appointed by RWE to carry out the detailed design for WTG foundations for the Thor offshore windfarm. Once commissioned in 2027, Thor will be the largest offshore windfarm in Denmark and will supply electricity for around 1 million homes. The WT design scope has been ongoing since May 2022 with the detailed design expected to be finished by the end of 2023. The foundation type selected is for XXL TP-less monopiles with a maximum diameter of 8.6m and lengths of up to 90m. The design work is being delivered by our multi-disciplinary team with the majority of the engineers based in our UK and Denmark offices.
Turbines
72
Capacity
1GW
  • Primary Steel Design
  • Geotechnical Interpretation and Design
  • Secondary Steel Design
  • Low Voltage Electrical Design
  • Transportation and Installation Engineering Support

Akita Port

Project Overview

WT was appointed by EPCI contractor Kajima to ensure reliable and timely delivery of the secondary steel package for one of the first offshore wind farms in Japan. WT’s skilled engineering team led the rapid turnaround of the secondary steel elements and prioritised key deliverables, as well as comprehensive support to the installation contractor. By combining practical understanding and rigorous engineering refinement, WT’s in-depth experience achieved success for our client and the project.
Turbines
13
Capacity
54.6MW
  • Secondary Steel Design
  • Transportation and Installation Engineering Support

Park City Wind and Commonwealth Wind

Project Overview

Following a successful concept and FEED stage, WT is designing the foundations for the Park City Wind project and Commonwealth Wind project. Collectively, the project is known as New England Wind. This 2+ GW commercial scale offshore wind farm is one of the largest in the US. WT is excited about the challenging water depths coupled with large WTGs.
Turbines
15+
Capacity
2036MW
  • Primary Steel Design
  • Geotechnical and Geotechnical survey support
  • Metocean and Loads Design
  • Geotechnical Interpretation and Design
  • Secondary Steel Design
  • Optimization for production, installation and operation
  • Ensuring certification
  • Fabrication Support
  • T&I Support

Marwin

Project Overview

WT is delivering the full detailed design scope for a confidential US Offshore Wind Farm while also providing site investigation support for the project.
Turbines
20+
Capacity
300MW
  • Primary Steel Design
  • Geotechnical and Geotechnical survey support
  • Optimization for production, installation and operation
  • Geotechnical Interpretation and Design
  • Metocean and Loads Design
  • Secondary Steel Design
  • Ensuring certification
  • Fabrication Support
  • T&I Support
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