Data-driven Optimisation of Offshore Wind Operations & Maintenance

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Title
Data-driven Optimisation of Offshore Wind Operations & Maintenance

CoPED ID
52076c7e-7ed1-4ae0-ae5e-dfe8fdaa4339

Status
Active


Value
No funds listed.

Start Date
Aug. 31, 2021

End Date
Aug. 31, 2025

Description

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Offshore Wind (OW) continues to grow globally at a rapid pace, with 57 GW currently installed [1] and growth estimates of 630GW by 2050 [2]. To facilitate this rapid growth costs must continue to be brought down. With turbine manufacturers struggling for further cost reductions [3], reducing operations and maintenance (O&M) costs for wind farms offer opportunities. Currently O&M costs are estimated at 30% of the lifetime costs of a wind farm [4]. With offshore wind farms (OWFs) getting larger, moving further offshore and floating offshore wind becoming more prevalent it is increasingly important to develop and deploy optimised O&M strategies to continue to drive down costs. Furthermore, there is an increased focus on decarbonisation of the supply chain and operational activities of wind farms. To meet the Paris Agreement goals, optimisation of maintenance for a reduction in emissions is essential.
Wind farms produce a wealth of data that can be used to develop predictive strategies. The main systems on the wind turbine (WT) are: The Supervisory Control and Data Acquisition (SCADA) system and the condition monitoring system (CMS). These can be combined with maintenance reports; met-ocean data; operational reports; vessel data and stock levels to create a fully optimised maintenance system.


More Information

Potential Impact:
The primary impact will be achieved by industrially-sponsored student research projects. These will be designed to deliver immediate benefits to project sponsors, and the wider sector, forming a critical mass in capacity, knowledge and innovation opportunities.

The Offshore Renewable Energy (ORE) sector has seen rapid growth over recent years, with asset installations and operations increasing significantly. The UK is a global leader in the research, development and engineering in ORE, delivering significant benefits for UK plc. Current UK offshore wind installed capacity is in excess of 5GW and is forecasted to grow to around 10GW by 2020, with expected capacity increases of 1GW/year until 2030. Across Europe, installations (excluding the UK) exceed 6GW capacity, with a further 9GW envisaged before 2020 and a growth rate of 2.5 GW/year up to 2030. Whilst offshore wind is at an industrial stage where it creates new jobs right now, tidal and wave energy hold the potential to further mature to provide the benefits from commercial deployments by 2040. ORE generation complements the low carbon energy portfolio, reducing CO2 emissions.

The sector will drive substantial economic benefit to the UK, provided development, research and training can keep up with the sector. Economic analysis conducted for the Sustainable Energy Authority of Ireland shows that 3FTE construction job years are created per MW of offshore wind deployed, and a further 0.6FTE are created through ongoing operations and maintenance, creating thousands of jobs per GW/year. Analysis by the ORE Catapult found that current offshore wind projects have an average 32% UK content. By 2040 the UK is to increase this content in areas of strength such as blade and tower manufacture, cable supply and O&M, by providing the needed investment, development and skills training. Supply chain analysis projects that 65% UK content could be possible by 2030, with further export opportunities, estimated to be worth £9.2bn per year by 2030. The current GVA to the UK per GW installed (at 32% UK content) is £1.8bn and estimates suggest a possible increase to £2.9bn by 2030. Future UK employment in the ORE sector has been modelled by Cambridge Econometrics. By 2032 the sector could support 58,000 FTE jobs in the UK, with 21,000 FTE jobs direct employment (up from 10,000 FTEs jobs currently) and another 37,000 FTE additional indirect jobs.

IDCORE will contribute to and improve ORE supply chain development, by providing dedicated R&D support to SMEs and developers, building industry and investor confidence and working with investors and asset owners. The program will result in new technical solutions, enhanced O&M service offerings and enhanced engineering design and analysis tools for the benefit of the industry partners and the wider sector.

The role of government strategy and policy development will be a crucial element of the training provided to IDCORE students. Used within their projects, and in interactions with sponsors, this knowledge will improve the outcomes for their work making it relevant to latest policy developments. It will also drive the development of robust evidence for government, improving policy making. Such engagement is supported by links created between the partners and the Scottish and UK Governments and organisations like Wave Energy Scotland and the International Energy Agency.

The development and demonstration of an effective EngD programme is important for the broader academic community, providing a model for engagement with industry and other stakeholders which is as effective in its impact on SMEs as it is with larger organisations.

The consortium has strong international links across Europe and in Chile, China, India, Japan, Mexico, and the USA. Promoting EngD programmes for renewable energy has the potential to lead to the formation of new sister programmes - expanding opportunities for staff and student exchange.

Thomas Morstyn SUPER_PER
David Ingram SUPER_PER
Ian Ashton SUPER_PER

Subjects by relevance
  1. Wind energy
  2. Wind farms
  3. Wind power stations
  4. Costs
  5. Renewable energy sources
  6. Optimisation
  7. Employment

Extracted key phrases
  1. Offshore Wind Operations
  2. Current UK offshore wind
  3. Current offshore wind project
  4. Offshore wind farm
  5. Data
  6. Wind farm
  7. Offshore Renewable Energy
  8. ORE supply chain development
  9. Rapid growth cost
  10. UK content
  11. Future UK employment
  12. Supply chain analysis project
  13. UK government
  14. O&M cost
  15. Wind turbine

Related Pages

UKRI project entry

UK Project Locations
200 km
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