Centrifuge Physical Modelling of Floating Offshore Wind Moorings in Layered Soils 

Project Description:

This PhD scholarship is offered by the EPSRC CDT in Offshore Wind Energy Sustainability and Resilience; a partnership between the Universities of Durham, Hull, Loughborough and Sheffield. The successful applicant will undertake six-month of training with the rest of the CDT cohort at the University of Hull before continuing their PhD research at the University of Sheffield.

The future of offshore wind energy lies in floating turbines, enabling the capture of wind power in deep waters where conventional foundations (like monopiles and jackets) are not economically viable. Pioneering projects, such as by Hywind (in Scottish and Danish waters) and Ørsted (in Scottish and German waters), have successfully demonstrated that these floating units can be securely anchored using suction caissons (or “buckets”) embedded in the seabed. These foundations offer significant advantages, particularly the ease of installation, removal, and potential reuse, making them highly sustainable. However, the anticipated increase in their use, especially deployed in large, clustered groups for new wind farms, creates an urgent need to develop a robust understanding of their behaviour across diverse seabed soils and throughout all lifecycle stages.

This PhD project focuses on using Geotechnical Centrifuge Modelling (also known as Hypergravity Modelling) to meet this knowledge gap. This technique offers a practical and cost-effective means to test a wide range of real-world scenarios at appropriate stresses and scales, providing crucial data necessary for:
1. Understanding caisson performance in diverse soil conditions, including layered, heterogeneous soils, and sloping seabeds.
2. Numerical model validation and design optimisation by supplying high-quality data needed to validate and refine the next generation of predictive numerical models.

A key innovation in this research will be the use of transparent soil analogues of sand and clay, immersed in a fluid with a matched refractive index. This allows for the direct, visual observation of the soil-structure interaction, enabling detailed three-dimensional measurement of displacements and strains. In this project, you will utilise transparent soil to examine, in detail, how different seabed soils interact as a suction caisson is installed within a geotechnical centrifuge environment.

This research will help bridge the gap between theoretical numerical predictions and practical, safe engineering design, ultimately ensuring the reliability and stability of these foundations for the future of floating offshore wind.

Training and development

You will benefit from a taught programme, giving you a broad understanding of the breadth and depth of current and emerging offshore wind sector needs. This begins with an intensive six-month programme at the University of Hull for the new student intake, drawing on the expertise and facilities of all four academic partners. It is supplemented by Continuing Professional Development (CPD), which is embedded throughout your 4-year research scholarship.

This PhD will equip you to tackle highly complex, multi-physics engineering problems, taking in both fundamental and practical perspectives. You will receive in-house training on both geotechnical centrifuge (hypergravity) physical modelling and the use of transparent soils (refractive index matching) and related optical methods, including the handling of high-powered lasers. This will be complemented by CDT and professional workshops on physical testing in geomechanics and offshore renewables.

Entry requirements

If you have received a First-class Honours degree, or a 2:1 Honours degree and a Masters, or a Distinction at Masters level with any undergraduate degree (or the international equivalents) in Engineering or Physics, we would like to hear from you.

If your first language is not English, or you require Tier 4 student visa to study, you will be required to provide evidence of your English language proficiency level that meets the requirements of the Aura CDT’s academic partners. This course requires academic IELTS 7.0 overall, with no less than 6.0 in each skill.

If you have any queries about this project, please contact Dr Elisabeth Bowman via e.bowman@sheffield.ac.uk

You may also address queries about the CDT to auracdt@hull.ac.uk.

Watch our short video to hear from Aura CDT students, academics and industry partners:

Funding

The Offshore Wind CDT is funded by the EPSRC, allowing us to provide scholarships that cover fees plus a stipend set at the UKRI nationally agreed rates. These are currently £20,780 per annum at 2025/26 rates and will increase in line with the EPSRC guidelines for the subsequent years (subject to progress).

Eligibility

Research Council funding for postgraduate research has residence requirements. Our CDT scholarships are available to Home (UK) Students. To be considered a Home student, and therefore eligible for a full award, a student must have no restrictions on how long they can stay in the UK and have been ordinarily resident in the UK for at least 3 years prior to the start of the scholarship (with some further constraint regarding residence for education). For full eligibility information, please refer to the EPSRC website.

We also allocate a number of scholarships for International Students per cohort.

Guaranteed Interview Scheme

The CDT is committed to generating a diverse and inclusive training programme and is looking to attract applicants from all backgrounds. We offer a Guaranteed Interview Scheme for home fee status candidates who identify as Black or Black mixed or Asian or Asian mixed if they meet the programme entry requirements. This positive action is to support recruitment of these under-represented ethnic groups to our programme and is an opt in process.

Find out more

How to apply

Applications are open until 5 January 2026.

Please note, you may only apply for ONE project offered through the EPSRC CDT in Offshore Wind Energy Sustainability and Resilience.

Please ensure that you familiarise yourself with the Aura CDT website before you apply to give you a good understanding of what a CDT is, our CDT’s research focus and the training and continuing professional development programme that runs alongside the CDT. The Frequently asked questions page and Candidate resources page are essential reading prior to applying.

Applications to this project are made via the University of Sheffield admissions system. If you have not applied to the University of Sheffield before, you will need to set up an account to enable you to track the progress of your application and upload supporting documents.

As part of the recruitment process, we ask that you submit a short film of you delivering a presentation, of up to 5 minutes in length, on “How do your experiences and qualities provide a background to contribute to research and innovation for the project you have applied for”.

You will be assessed on the content of your presentation, not your film editing skills, but please be mindful of filming in an appropriate, quiet location. Please film the presentation in whatever way you feel most comfortable with. For example, it could be a slide presentation with voice over, or you may wish to present simply talking to the camera.  Please use the tools and technology that are accessible to you and that you feel comfortable with e.g. your mobile phone, or the built-in ‘Record Slide Show’ on Keynote (macOS, iOS, iPadOS) or Powerpoint etc.

We also ask that you complete a Supplementary Application Form. This includes space for you to provide a link where the shortlisting panel may view your film.

Follow this link to apply for CDT projects at the University of Sheffield: https://www.sheffield.ac.uk/postgraduate/phd/apply/applying

After filling in your personal details, please select ‘Doctoral Training Course’ as the qualification you are applying for. You should then select ‘AURA II CDT’ for the specific doctoral training course and choose ‘PhD’. You can apply for one project only.

With your application, you need to upload copies of the following supporting evidence:

• Complete transcripts (and final degree certificate(s) where possible). If your qualification documents are not in English, you will need to supply copies of your original language documents as well as their official translation into English.
• Your Curriculum Vitae (CV).
• A completed Supplementary Application Form (upload when asked for your Supporting Statement).

Uploading the form

When you have completed the form, please save it as a pdf format and labelled as follows:

Last name_first name PhD application form

Upload the form as part of your application documents through the University of Sheffield student application portal, when asked to add your Supporting Statement. The Form replaces the Supporting Statement and so you do not need to complete the Supporting Statement section. Please do not send your form directly to the Offshore Wind CDT.

Interviews

First-round interviews will be held online during early to mid-February 2026. The interview panel will comprise the project supervisory team members from the host university where the project is based, plus a representative of the CDT.  Where the project involves external supervisors from university partners or industry sponsors then representatives from these partners may form part of the interview panel and your application documents will be shared with them (with the guaranteed interview scheme section of the supplementary application form removed).

If you are successful, you will progress to a second interview towards the end of February 2026. This will be with key academics from the CDT from across our four partner institutions (Durham University, University of Hull, Loughborough University, University of Sheffield) and your application documents will be shared with them (with the guaranteed interview scheme section removed from the supplementary application form).

If you have any queries about this project, please contact Dr Elisabeth Bowman via e.bowman@sheffield.ac.uk

You may also address queries about the CDT to auracdt@hull.ac.uk.

References & Further Reading
[1] Offshore Wind Scotland (2025) Floating wind in Scotland https://www.offshorewindscotland.org.uk/the-offshore-wind-market-in-scotland/floating-wind-in-scotland
[2] Ørsted (2025) “Ørsted’s experience with suction bucket jackets”.
https://orsted.com/en/what-we-do/renewable-energy-solutions/offshore-wind/technology/suction-bucket-jacket-foundations
[3] ORE Catapult and ARUP (2024) Floating Offshore Wind Anchor Review – Public Summary Report. Floating Offshore Wind Centre of Excellence, PN000585-RPT-005 – Rev. 01. https://fowcoe.co.uk/wp-content/uploads/2024/03/FOWCoE-Report-Anchor-Review-PN000585-RPT-005-MA03.pdf
[4] Ragni, R., Bienen, B., O’Loughlin, C.D., Stanier, S.A., Cassidy, M.J. & Morgan, N. (2020) Observations of the effects of a clay layer on suction bucket installation in sand. ASCE J. Geo & Geoenv. Eng.
https://doi.org/10.1061/(ASCE)GT.1943-5606.0002217
[5] Hunter, R.P. & Bowman, E.T. (2018) Visualisation of seepage induced suffusion and suffosion within internally erodible granular media. Géotechnique, 68(10) 918-930. https://doi.org/10.1680/jgeot.17.P.161
[6] Sanvitale N., Zhao B., Bowman E. & O’Sullivan C. (2021) Particle-scale observation of seepage flow in granular soils using PIV and CFD. Géotechnique. https://doi.org/10.1680/jgeot.20.P.432