Research & Development
We are involved in various research and development projects. Our focus lies on future relevant key technologies in the offshore and marine industry.
If you have any questions please do not hesitate to get into contact with us.
TransShip 2022
Project for the transition to hydrogen powered shipping
- Feasibility study for a full refit of a hydrogen based propulsion system
- Analysis of current operation and regulatory frameworks for a fully decarbonised engine room layout, including on-board hydrogen storage
- Numerical modelling and physical tank testing
- Optimised propeller and duct arrangement with leading-edge tubercles
- Energy savings of up to 30%
Maritime Hydrogen Highway
Project looking at the scope to establish a national hydrogen highway network, integrating land, sea and port
O.S. Energy and partners are working to bring a concept network of autonomous vessels transporting green Hydrogen from Offshore Locations to shore based consumers, ultimately presenting a concept design for the proposed Autonomous Network Transport at Sea (ANTS) ships.
ProjectZERO
Research and development project to demonstrate the feasibility of achieving zero emission operations
- Energy efficiency improvements of ship and integrated systems in light of transition from high energy fossil fuels
- Significantly reducing GHG emissions of offshore renewable support activities
- Integration of innovative drive train systems and control strategies for hybrid electric operations
- Advancing development and justification of new rules and regulations relating to the storage, handling and operation of alternative fuels in the maritime industry
- Accelerating supply chain developments, skills and education towards building world leading offshore support vessels in the UK
ReSHIP
Project which is to increase the efficiency of our vessel Fortuna Crane
- Novel hydrogen storage solution in combination with a compact power generator to supply green hydrogen based electricity
- Significant reductions in energy requirements while also allowing reduction in load fluctuations for simplified integration of hydrogen based drive train systems
- Analysis of ship operation and design of a novel tubercle assisted propulsion propeller
- Minimum overall 35% energy saving and to half the hydrogen storage demands regarding space and weight
1MW Demonstrator
1MW Zero Emission Drive Train Demonstrator Project
- Demonstrating a physical model of a clean propulsion system
- Team will use the design of our newbuild that uses an electric-hydrogen hybrid system
- Powered by clean energy with a 10 day range and a 1MW powertrain