What’s Happening: Key Facts

1. Award of the Third Celtic Sea Floating Wind Site
   • Ocean Winds (a 50‑50 joint venture between EDP Renewables and Engie) has been awarded rights to develop a third floating offshore wind site in the Celtic Sea. (The Crown Estate)
   • The lease was granted by The Crown Estate, following a direct award process (not part of the initial auction) under the UK’s Procurement Act 2023. (Offshore Wind)
   • A formal Agreement for Lease between Ocean Winds and The Crown Estate is expected to be finalised by Spring 2026. (The Crown Estate)
2. Project Scale & Location
   • The development area is 358 km² in size. (Ocean Winds)
   • Water depths in this area range from 71 to 88 metres, making it suitable for floating wind platforms. (Ocean Winds)
   • Once fully built (possibly in phases), the project could reach 1.5 GW of installed capacity. (World Energy)
3. Economic & Social Commitments
   • As part of Crown Estate’s terms, Ocean Winds must commit to onshore economic benefits, including creating apprenticeships and prioritising employment among young people (10% of employees aged 19‑24 must not be in education/employment/training). (The Crown Estate)
   • If the full Round 5 capacity (which includes this site) is built out, the estimate is 5,000+ jobs and ~£1.4 billion economic boost. (NOF)
   • Ports are expected to play a key part in the project: Port Talbot and Port of Bristol have already been identified as potential bases for assembly / deployment. (The Crown Estate)
4. Ocean Winds’ Experience & Strategy
   • Ocean Winds has significant experience in floating wind: they were behind WindFloat Atlantic (the world’s first semi‑submersible floating wind farm) in Portugal. (Ocean Winds)
   • They also have ongoing floating wind development in other countries (e.g., South Korea, France). (Ocean Winds)
   • In the UK, Ocean Winds already has experience with fixed-bottom offshore wind (e.g., Moray East and Moray West). (Ocean Winds)
5. Strategic Importance & Risks
   • The award helps deliver all three sites offered in Round 5 for floating wind in the Celtic Sea; the total of the three is up to 4.5 GW. (Offshore Wind)
   • The Crown Estate took steps to “de-risk” the Round 5 opportunity: for example, planning grid connections with the National Grid / system operator and doing environmental / technical pre-consent surveys. (The Crown Estate)
   • The project could be an important part of the UK’s net zero / energy transition goals, especially boosting clean energy capacity off the southwest of England and Wales.
6. Lease Costs
   • Ocean Winds will pay £350 per MW per year for the lease (excluding VAT), the same rate as the other two developers awarded in Round 5. (The Crown Estate)
   • For a 1.5 GW site, that works out to a substantial annual option fee. (The Crown Estate)

Why This Matters

• Floating Wind Potential: Because the Celtic Sea has deep water, floating turbines are more viable than fixed-bottom foundations. This award underlines the UK’s strategy to tap into more challenging but high-potential sites.
• Industrial Growth: This project could help develop a local floating wind supply chain, including wind turbine assembly, port infrastructure, and maintenance capabilities — especially in southern Wales and southwest England.
• Energy Security & Green Power: 1.5 GW is a big capacity, contributing significantly to the UK’s clean energy ambitions. More floating wind means more renewable electricity, which helps with decarbonisation and reducing reliance on fossil fuels.
• Jobs & Economic Impact: With thousands of jobs and billions in economic benefit projected, the project is a major regional economic opportunity, not just a power-generation one.
• Technology Leadership: Ocean Winds is demonstrating global leadership in floating wind. Their track record (like WindFloat Atlantic) gives confidence that they can deliver.
• Policy Signal: The Crown Estate’s decision also shows strong public-sector support for floating technology — including derisking initiatives — signalling confidence in long-term floating wind in the UK.

Challenges & Risks

• Technical Risk: Floating wind is still less mature than fixed-bottom wind, so there are engineering, maintenance, and cost risks.
• Grid Connection: Building out the infrastructure to connect this site to the main UK grid could be complex and expensive.
• Regulatory / Permitting Risk: Environmental assessments, marine licensing, and local stakeholder support could be hurdles.
• Market Risk: The future revenues will depend on power prices, contracts (PPAs), and the cost trajectory of floating wind tech.
• Competition: Other developers (like Equinor and Gwynt Glas) are also building in the Celtic Sea — which could drive competition for resources (e.g., port space) or political support.

Comments from Key Players

• Craig Windram (CEO, Ocean Winds): He expressed pride in being selected, highlighting their deep experience with floating wind and their commitment to deliver a project at industrial scale. (Ocean Winds)
• Dan Labbad (CEO, The Crown Estate): He said he was “incredibly proud” to deliver on the promise to secure a developer for the third site, and welcomed Ocean Winds as a world-leading company to boost UK floating wind capacity. (The Crown Estate)
• Ed Miliband (UK Energy Secretary): He framed the project as not just about clean power, but also about industrial renewal and job creation in Welsh and Southwest English communities. (The Crown Estate)
• Ports Groups:
  • British Ports Association noted that this project represents a huge opportunity for ports in Wales and the southwest to become hubs for floating wind assembly and deployment. (The Crown Estate)
  • UK Major Ports Group emphasized the role that ports will play: delivering clean energy is not only about turbines, but also about building a new industry. (The Crown Estate)
  • Here’s a structured overview of case studies and expert commentary around Ocean Winds securing its floating offshore wind (FLOW) project in the Celtic Sea.
    

    ---

    Ocean Winds Celtic Sea Floating Wind Project — Case Studies & Comments

    Ocean Winds, the joint venture of EDP Renewables and Engie, has been awarded the lease to develop a third floating offshore wind site in the Celtic Sea. This forms part of the UK’s strategic Round 5 floating wind programme.

    ---

    CASE STUDY 1: WindFloat Atlantic — Lessons for the Celtic Sea

    Scenario:

    • Ocean Winds previously developed WindFloat Atlantic in Portugal, the world’s first semi-submersible floating wind farm.

    Key Insights:

    • Demonstrated technical feasibility of floating wind at deep-water sites (60–100m depth).
    • Provided experience in grid connection, turbine installation, and maintenance logistics, directly applicable to the Celtic Sea.

    Comment:
    This experience positions Ocean Winds to deliver efficiently and reduce project risk. The UK project leverages prior innovation for faster deployment.

    ---

    CASE STUDY 2: Celtic Sea Lease & Economic Impact

    Scenario:

    • Project area: 358 km²; water depth: 71–88m.
    • Potential capacity: ~1.5 GW, enough to power ~1.3 million homes.
    • Crown Estate conditions include apprenticeship and local hiring targets, especially for 19–24-year-olds not in education or employment.

    Impact:

    • Potential creation of 5,000+ jobs across construction, ports, and maintenance.
    • Estimated £1.4 billion economic boost regionally.

    Comment:
    The project is as much an industrial development programme as a renewable energy project, supporting UK jobs and ports infrastructure in Wales and the southwest.

    ---

    CASE STUDY 3: Ports & Supply Chain Integration

    Scenario:

    • Ports such as Port Talbot and Port of Bristol may serve as hubs for turbine assembly, floating platform staging, and maintenance.

    Insights:

    • Floating wind requires large assembly areas due to turbine and platform size.
    • Efficient port operations reduce transport costs and timelines.

    Comment:
    Strategic port development ensures long-term supply chain capability, increasing the UK’s competitiveness in global floating wind markets.

    ---

    CASE STUDY 4: Environmental & Regulatory Considerations

    Scenario:

    • The Celtic Sea hosts sensitive marine ecosystems.
    • Ocean Winds will need environmental impact assessments and compliance with marine licensing.

    Insights:

    • Pre-consent surveys by the Crown Estate help de-risk environmental permitting.
    • Floating wind is generally less invasive to seabed than fixed-bottom wind farms.

    Comment:
    The project demonstrates a balance between green energy expansion and environmental stewardship, which is key for community and regulatory support.

    ---

    CASE STUDY 5: Strategic Significance for UK Energy Transition

    Scenario:

    • Floating wind allows development in deeper waters where fixed-bottom turbines are not feasible.
    • Contributes directly to UK government targets for net-zero by 2050 and offshore wind capacity expansion.

    Comment:
    This award signals public and private sector alignment on decarbonisation, energy security, and technology leadership. It also positions the UK as a global hub for floating offshore wind innovation.

    ---

    Expert Commentary

    1. Technical Confidence
       • Ocean Winds’ prior projects reduce risk and provide proven know-how for turbine installation, floating platforms, and O&M strategies.
    2. Economic Benefits
       • Apprenticeships, local employment, and port utilisation promote regional economic regeneration.
    3. Energy Security & Sustainability
       • Floating wind projects like this diversify UK electricity generation, reduce reliance on fossil fuels, and strengthen energy resilience.
    4. Policy Implications
       • The Crown Estate’s structured leasing and de-risking measures show strong government support, reinforcing investor confidence in large-scale offshore projects.
    5. Future Competitiveness
       • Developing a UK-based floating wind supply chain improves international competitiveness, supporting exports of UK offshore wind expertise.

    ---