As offshore energy activity moves further from shore, the need for reliable in-field power is becoming increasingly important. Subsea oil and gas infrastructure, Carbon Capture and Storage (CCS) projects, offshore monitoring systems, and other remote assets often depend on long subsea cables, umbilicals, or local generation using diesel generators. These solutions can be costly, complex to install, vulnerable to damage, and carbon-intensive.

SolarDuck’s Offshore Floating Power & Utility Hub is designed to offer an alternative: a redeployable offshore platform that generates renewable power where it is needed.

In addition the OFPH supports continuous operations through integrated energy storage and auxiliary systems. This has the potential to reduce the lifecycle costs of CCS and subsea tie-back projects and, consequently, unlock investment opportunities.

Steady Seas, SolarDuck, MARIN

Steady Seas builds on the operational experience and data gathered through SolarDuck’s DEI+ Merganser project in the Dutch North Sea. Under the new program, SolarDuck will lead the overall OFPH design and system integration. MARIN will contribute hydrodynamic analysis, simulations, and basin testing to validate the platform’s behavior, reliability, and wave response under realistic offshore conditions. The results will support the next step toward demonstration projects with offshore industry partners.

Scope of work

The Steady Seas project combines applied research and technology development to address key technical questions for the Offshore Floating Power & Utility Hub, including hydrodynamic performance, mooring and motion behavior, integration of power and communication systems, and the interface with subsea infrastructure.

The program will translate lessons from earlier offshore solar pilots into a robust basic design for a sector-specific platform that can support offshore oil and gas, carbon capture and storage, and other remote offshore applications.