Extreme wind and wave loads on the next generation of offshore wind turbines
Lead Research Organisation:
University of Oxford
Department Name: Engineering Science
Abstract
In many areas around the world dominant load on offshore wind turbines is from environmental forces. One example of this is in China where typhoons can do considerable damage to offshore installations. This project builds up from fundamental modelling of the underlying environment and how offshore wind turbines interact with this, to analyzing the structural response and design scenarios.
The project will have four themes: The first stage examines the wave environment in areas of moderate depth and complex bathymetry with wind input. The second and third stages of the project will analyse loads from wind and waves on offshore wind structures. The fourth stage will examine the associated structural and geotechnical design. An ongoing theme throughout the project will be directed towards outreach, networking and dissemination. The project will improve our understanding of the underlying physical processes as well as exploring the design and environmental implications. In particular, the first theme will provide a better fundamental understanding of typhoon-wave interactions, an important topic in its own right in ocean environmental science.
The project will use a wide-range of techniques to tackle the particular problems. These range from analytical modelling of the underlying equations, numerical modelling, physical modelling, and analysis of field data. Insight from all these approaches will be pooled to tackle the challenge of designing offshore wind turbines in harsh maritime environments.
The project will have four themes: The first stage examines the wave environment in areas of moderate depth and complex bathymetry with wind input. The second and third stages of the project will analyse loads from wind and waves on offshore wind structures. The fourth stage will examine the associated structural and geotechnical design. An ongoing theme throughout the project will be directed towards outreach, networking and dissemination. The project will improve our understanding of the underlying physical processes as well as exploring the design and environmental implications. In particular, the first theme will provide a better fundamental understanding of typhoon-wave interactions, an important topic in its own right in ocean environmental science.
The project will use a wide-range of techniques to tackle the particular problems. These range from analytical modelling of the underlying equations, numerical modelling, physical modelling, and analysis of field data. Insight from all these approaches will be pooled to tackle the challenge of designing offshore wind turbines in harsh maritime environments.
Planned Impact
This project addresses one of the key problems in the design of offshore wind turbines. By improving our understanding of loads on offshore wind turbines we can reduce the cost, uncertainty and risk of the technology. This work will tackle some fundamental challenges in ocean engineering and use the insight from this to improve the design of offshore wind structures. The methods and data sets produced will be made available to users in industry and academia and will be directly useable for design and research purposes.
Publications
Li Y
(2021)
Surface wavepackets subject to an abrupt depth change. Part 1. Second-order theory
in Journal of Fluid Mechanics
McAllister M
(2022)
Wave breaking and jet formation on axisymmetric surface gravity waves
in Journal of Fluid Mechanics
Tang T
(2022)
The impact of removing the high-frequency spectral tail on rogue wave statistics
in Journal of Fluid Mechanics
Tang T
(2021)
Data driven analysis on the extreme wave statistics over an area
in Applied Ocean Research
Tang T
(2020)
Spatial evolution of the kurtosis of steep unidirectional random waves
in Journal of Fluid Mechanics
Tang T
(2022)
A reduced order model for space-time wave statistics using probabilistic decomposition-synthesis method
in Ocean Engineering
Van Den Bremer T
(2021)
Why rogue waves occur atop abrupt depth transitions
Wu X
(2019)
Foundations of offshore wind turbines: A review
in Renewable and Sustainable Energy Reviews
Zheng Y
(2020)
Fully nonlinear simulations of unidirectional extreme waves provoked by strong depth transitions: The effect of slope
in Physical Review Fluids
| Description | i) We have explained a phenomena discovered about 10 years ago as to why you get rogue waves at the top of slopes. This is of significance to offshore wind turbines (particularly in China) as they are often located as far from shore as there is shallow water. We developed the theory analytically in Oxford. It was tested numerically in collaboration with China and experimentally in collaboration with othe UK/China ORE partners. Major papers have been published in JFM (leading journal in the field) which are already starting to receive significant citations with more papers on their way. This line of work has spawned new collaborations and further work between the people who worked on it although they have moved on to new roles. ii) We have extended a methodology we developed for calculating the higher harmonics of forces on offshore wind turbines to the calculation of moments. This was done experimentally in Oxford and in collaboration experimentally with ours. A significant paper has been published in Coastal Engineering. The Sea-Swallows project directly follows on from this work. iii) We have examined the evolution of rogue wave density from initially non-equilibrium sea states experimental (in Shanghai) and numerically. A major paper paper has been published in JFM (the leading journal in the field) with a second in coastal engineering. This theoretical developments made during this work have enabled us to identify a new a major problem with how waves are generated experimentally. Work is ongoing on this and a grant proposal will be submitted in due course. |
| Exploitation Route | We have made a series of theoretical breakthroughs which can help lead to improved load modelling on offshore wind turbines and other offshore infrastructure. These have led to new research directions which both my group and others a pursuing. We are working with developers and certification agencies to bring some work into industry practice. |
| Sectors | Energy |
| URL | https://www.ukchn-core.com |
| Description | We are working with developers to incorporate the findings into the design of loadings on offshore wind turbines. |
| First Year Of Impact | 2022 |
| Impact Types | Economic |
| Description | Severe Storm Wave Loads on Offshore Wind Turbine Foundations (SEA-SWALLOWS) |
| Amount | £794,580 (GBP) |
| Funding ID | EP/V050079/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 09/2021 |
| End | 09/2024 |
| Description | Partnership between Li and Draycott |
| Organisation | University of Manchester |
| Country | United Kingdom |
| Sector | Academic/University |
| PI Contribution | The flex funding part of this grant forged new links between Dr Yan Li (researcher on project) and Dr Sam Draycott (researcher on another UK/China project). This has led to funding for SupergenORE ECR fund as well as ongoing unfunded work. |
| Collaborator Contribution | This partnership is working on the problem of waves passing over discontinuities in the sea bed. It brings together a theorist (Li) with experimentalist (Draycott). They have been successful in obtaining external funds to keep this fruitful partnership going. |
| Impact | A publication is in press and further ones have been submitted |
| Start Year | 2020 |
| Description | Meetng of UK/China ORE projects in Oxford |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Professional Practitioners |
| Results and Impact | Join networking event for UK/China ORE funded projects. |
| Year(s) Of Engagement Activity | 2019 |
| URL | https://www.ukchn-core.com/event/uk-china-joint-offshore-renewable-energy-conference-7th-to-10th-jul... |
| Description | Meetng of UK/China ORE projects in Oxford |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Industry/Business |
| Results and Impact | Meeting between all funded projects in the UK/China ORE consortium. |
| Year(s) Of Engagement Activity | 2018 |
| URL | https://www.ukchn-core.com/event/kick%e2%80%90off-event-oxford-march-2018/ |
| Description | SupergenWind meeting |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | National |
| Primary Audience | Professional Practitioners |
| Results and Impact | Dessiminate project to Supergen Wind meeting in Dundee |
| Year(s) Of Engagement Activity | 2018 |