Work with us
- We can optimise the hydrodynamic design of offshore renewable structures for performance and survivability
- We lead on advanced high-tech autonomous ocean data collection
- We enhance and safeguard operations with our state-of-the-art simulators and cyber resilience testbeds
- We fundamentally understand how operations will interact with the ocean environment through our leading marine science research
Testing and de-risking
Hydro- and aerodynamic design
- Fully adjustable water depth, wave and current dynamics, and wind conditions to mirror the Celtic Sea environment.
- De-risk floating offshore wind installations and mooring designs by running physical experiments at scale.
- Generate test data to understand limits of designs and how they perform under different scenarios.
Physical and virtual modelling and simulation
- True-to-life simulations of vessels, structures, weather and wave conditions.
- Measure a wide range of metrics, including dynamic forces, power and stresses.
- Evaluate insurance risks and assess carbon budget.
Designing for cyber resilience
- Build cyber resilience into your floating offshore wind developments with secure-by-design principles.
- Analyse and address cyber security vulnerabilities at the hardware, software, and human levels to mitigate threats.
- Embed leading technological and training solutions that will protect your company, your consumers and the environment.Â
Data capture for planning
- Identify optimal locations for floating offshore wind turbines, infrastructure and moorings through the collection of ocean and shoreline spatial data.
- Accelerate the process of surveying, monitoring and conducting environmental impact assessments by using AI alongside marine autonomous systems, novel sensors and robotics.
- Monitor wave energy, wind speed and depth profile to achieve peak performance and operational resilience.
Life cycle assessment
- Carry out rigorous life cycle assessments of the materials and machines used in your developments, as well as research on recycling materials for circular economy.
- Leverage our clean maritime expertise to address the impact of deploying floating turbines into the marine environment.
- Examine the ecological impacts of FLOW installations and prepare strategies for decommissioning.
Legal aspects of FLOW operations
- Address conflicting priorities while remaining legally compliant in areas such as policy and cross-border relations with Ireland and the EU.
- Embed both offshore and onshore legal considerations into rigorous planning and approval processes.
- Ensure that your proposals observe cultural heritage and environmental law, and specifically the Habitats Regulations and the Marine and Coastal Access Act.
Development and deployment
Integration of alternative energy
- Cut distribution costs and facilitate efficient energy storage solutions by integrating green hydrogen production, and other alternative fuels, with floating offshore wind.
- Eliminate supply and demand balancing challenges by co-locating other offshore renewable energy with your operations, such as solar, wave and tidal stream energy.
- Reduce the carbon footprint of your supply chain and the wider energy sector by leveraging regional geothermal energy.
Maritime cyber security solutions
- Protect critical energy infrastructure against growing maritime cyber threats with advanced security mechanisms through fundamental understanding of risk in both Information and Operational Technology (IT/OT) convergence.
- Prevent service outages with cyber-physical testing and solutions to respond quickly to attacks, such as viruses, ransomware and blackmail.Â
- Access nationally unique resources, like Cyber-SHIP Lab, Smart Sound Plymouth, and the new Cyber Resilience of Offshore Wind Networks (CROWN) facility to ensure resilient deployment in the region.
Optimisation of installation and operational maintenance
- Model, test and analyse real-world scenarios in our state-of-the-art COAST Lab, Maritime Simulation Lab and Cyber-SHIP Lab.
- Reduce costs and improve data-gathering efficiency, maritime safety, monitoring and environmental impacts with leading facilities and expertise in marine autonomous systems.
- Decarbonise maintenance and support vessels by accessing our capabilities in clean maritime technology. Â
Port integration and logistics
- Utilise our expertise in green shipping, port management, procurement and logistics.
- Develop business models to successfully manage the transition to a net-zero economy.
- Train new sector-specific professionals, engineers, and project managers with a focus on ORE operations, predictive analytics and maritime economics.
Social and environmental value
- Foster a unified and consensual approach to the ORE agenda by considering the needs of the development areas alongside the needs of the country as a whole.
- Identify and analyse the economic impacts generated by ORE to ensure that investment and employment benefits local people and regionally embedded businesses.
- Increase supply chain resilience and capacity by subscribing to innovation and skills in the South West.
- Support the UK commercial fisheries industry by using our natural capital expertise to demonstrate how offshore installations can contribute to new feeding and nursing grounds.
- Foster the co-existence of offshore wind operations with a thriving environment using unparalleled capabilities and equipment in the application of marine and environmental intelligence.
- Co-locate your developments with sustainable local enterprise, such as kelp farming or aquaculture, to stimulate regional job prospects and a healthy marine ecosystem.
Working with communities
- Combine scientific and ethical perspectives to facilitate community-conscious development through a whole systems-thinking approach.
- Empower local stakeholders with meaningful, ongoing opportunities to participate in decision-making processes, as well as including, informing and inspiring communities through public engagement programmes.
- Work alongside the traditional local fishing, agricultural and tourism industries with respect to regional food security, livelihoods and cultural heritage.
- Deploy novel sensors, robotics and autonomous camera technology to build long-term datasets of seafloor imagery.
- Identify and analyse the distribution of protected species in the Celtic Sea region to mitigate impacts from development and promote conservation.
- Speed up the consenting process by interpreting autonomous survey data in real time with AI technology.
Why work with Plymouth?
Explore our critically important resources that support floating offshore wind operators with development, de-risking and deployment
Discover why the city of Plymouth is internationally recognised as the prime location to undertake innovative marine and maritime research and development
Flexible tailored support
- Drive new technological solutions through our Energy Innovation and Skills Generator, a support programme of commercial consultation, facility access and collaborative research and development.
- Address key sector challenges through co-investment and strategic research enabled by a consortium membership model.
- Achieve your commercialisation aims by accessing a continuum of ongoing support, ranging from consultancy to tailored student projects and company-sponsored PhDs.
Skills, expertise and future workforce
- Access apprenticeships, undergraduate, postgraduate and doctoral-level programmes in areas such as offshore renewable energy, maritime logistics and economics, onshore and marine design and engineering, cyber security, and marine autonomous systems.
- Upskill your workforce and advance specialist skills through our bespoke training opportunities.Â
- Drive regional growth through our Energy Innovation and Skills Generator, to support research and development and fulfil sector employment requirements.
Start a conversation by contacting us today:
News stories and announcements
- Future of Celtic Sea wind energy moves closer 11 December 2023
- Conference hears how floating offshore wind could be a game-changer for the South West 30 October 2023
- Study highlights significant design advances across floating offshore wind sector 8 September 2023
- Project aims to ensure offshore renewable innovations remain cyber-secure 5 September 2023
- Academic interviewed on BBC Radio 4's The Life Scientific 8 August 2023
Why the Celtic Sea developments are important
Original photograph of the WindFloat Atlantic project, courtesy of Principle Power/Ocean Wind.