The successful applicant will work on a major research project led by Oxford University funded by Ørsted, and will join the new EPSRC-funded Wind and Marine Energy Systems and Structures CDT program.
In 2018 Ørsted and Oxford University signed a five year research framework agreement to develop new design methods for offshore wind turbine foundations, with particular focus on cyclic loading of monopile foundations. The work develops from recent collaborations, including the PISA (Pile Soil Analysis) project, which has produced new design methods for monopiles, leading to reduced size and cost of the foundations. PISA was specifically focused on monotonic loading however the wind turbines are exposed to significant cyclic loading through the action of wind, wave and the operation of the turbine. This next phase of work, supported by the framework agreement, aims to develop design methods that specifically address cyclic loading conditions through theoretical development, numerical analysis, laboratory testing and medium scale field testing. The project is led by Professor Byron Byrne, in close collaboration with Ørsted, as well as academic colleagues and students at Oxford.
A fully funded studentship is available on this research program. The studentship will focus on finite element modelling, developing the work from the PISA Project, applying it new scenarios, as well as exploring the application of machine learning approaches to offshore geotechnical design. Candidates with strengths in numerical modelling for geotechnical problems are of interest. The project will build on existing work at Oxford, with the successful candidate joining a strong team of students and academic staff who work closely together, alongside engineers from Ørsted.
Further details and relevant papers are available from [email protected]
Applicants will be judged according to how well they meet the following criteria:
A first class, or upper second class, honours degree (or equivalent) in Civil Engineering or a cognate discipline (e.g. Mechanical Engineering, Physics, Mathematics, Geology)
Evidence of good mathematical and computational skills as applied to civil and geotechnical engineering problems
Appreciation of design methods for offshore foundations
Enthusiasm to undertake the research required for a doctorate
Excellent written and spoken communication skills in English
Excellent record of academic and/or professional achievement
The following are desirable but not essential:
Detailed knowledge of geotechnical engineering
Specialist skills such as use of FE programs or laboratory based work
Evidence of high self-motivation and good organisational skills
Interpersonal skills necessary to contribute effectively in a large research group.
To apply for this studentship, candidates should send the following documents to [email protected]
Statement of Purpose: This should describe why you are suitable for the Ørsted research project and for the CDT program, what you hope to achieve from the DPhil as well as your longer term ambitions. You should identify which studentship you wish to be considered for.
CV including transcripts/records of marks from university level courses
Contact details for two referees, at least one of which must be academic
NOTE: Candidates are expected to meet the graduate admissions criteria and a full graduate application must be made at the same time as applying for this studentship. Your studentship application will not be considered until you have submitted a graduate application (use course-code R20_1). Further details about making a graduate application.
Please quote REMS19-Orsted in all correspondence and in your graduate application.
Informal enquiries may be addressed to Prof. Byron Byrne. Note that applications sent directly to this email address will not be accepted.