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- Tasks: Develop innovative software for high-order mesh generation in complex industrial geometries.
- Company: Join Swansea University, a leader in engineering research and innovation.
- Benefits: Fully funded PhD with tuition fees and a stipend of £20,780 per year.
- Why this job: Make a real impact in aerospace and energy industries while gaining unique skills.
- Qualifications: Must have a 2.1 degree in Engineering or a related science discipline.
- Other info: Collaborate with major industry partners and enhance your career in scientific computing.
The predicted salary is between 20780 - 20780 £ per year.
Organisation/Company: Swansea University
Department: Central Research
Field: Engineering » Civil engineering
Researcher Profile: First Stage Researcher (R1)
Positions: PhD Positions
Country: United Kingdom
Application Deadline: 2 Feb 2026 - 23:59 (Europe/London)
Type of Contract: Temporary
Job Status: Full-time
Hours Per Week: 35
Offer Starting Date: 1 Oct 2026
Is the job funded through the EU Research Framework Programme? Not funded by a EU programme
Is the Job related to staff position within a Research Infrastructure? No
Offer Description: High-order solvers offer clear accuracy advantages, yet their effectiveness is fundamentally limited by the availability of suitable high-order meshes for complex industrial geometries. Current workflows rely heavily on geometric de-featuring, an expert-driven, manual, and time-consuming process used to simplify CAD models so that meshing tools can cope with small-scale features such as fillets and manufacturing details. This de-featuring is not only expensive but also problem-dependent, as the relevance of a geometric detail varies with the physics being simulated.
Concepts such as virtual topology have emerged to make meshing more flexible by allowing elements to span across multiple CAD faces without explicitly modifying the geometry. However, these ideas have not yet been developed in high-order settings, where curved elements, geometric fidelity, and element quality requirements make the problem considerably harder.
The aim of this project is to develop new methodologies and software tools that enable high-order meshes to be generated automatically for large, intricate industrial geometries without requiring extensive de-featuring. The key idea is to allow high-order elements to traverse multiple CAD surfaces, extending the virtual topology concept to curved, high-order discretisation, while preserving accuracy, mesh validity, and robustness.
This will involve advances in CAD–CAE interfacing, curved element optimisation, multiscale geometric feature detection, and error-controlled surface approximation. The resulting technology will be tested on real industrial geometries provided by partners in aerospace and energy such as Airbus and UKAES, where current workflows still depend on substantial manual model clean-up.
By removing the reliance on de-featuring and enabling reliable high-order meshing of complex shapes, the project will substantially shorten preparation times and accelerate the adoption of high-order methods in industrial design and analysis.
As the PhD researcher on this project, you will develop the numerical, geometric and algorithmic techniques needed to generate reliable high order meshes for complex, multiscale industrial geometries. You will work within a technically focused research group that maintains regular interaction with major industrial partners, giving you direct exposure to the challenges companies face when preparing large CAD models for high fidelity simulation.
This project will allow you to work with demanding real-world geometries and to build specialist expertise in high order mesh generation, geometric modelling and CAD to CAE integration. These capabilities are of growing importance to industry yet remain available to only a small number of researchers, providing you with a rare and highly valued skill set that aligns strongly with careers in scientific computing and engineering simulation.
IELTS 6.5 Overall (5.5+ each comp.) or Swansea University recognised equivalent.
Specific Requirements: UK & International students EPSRC DLA studentships are available to home and international students. Up to 30% of our cohort can comprise international students. Once the limit has been reached, we are unable to make offers to international students. We are still accepting applications from international applicants. International students will not be charged the fee difference between the UK and international rates. Applicants should satisfy the UKRI eligibility requirements.
PhD: Applicants for PhD must hold an undergraduate degree at 2.1 level (or non-UK equivalent as defined by Swansea University) in Engineering or similar relevant science discipline.
Additional Information: This scholarship covers the full cost of tuition fees and an annual stipend at UKRI rate (currently £20,780 for 2025/26).
Eligibility criteria: UK & International students EPSRC DLA studentships are available to home and international students. Up to 30% of our cohort can comprise international students. Once the limit has been reached, we are unable to make offers to international students. We are still accepting applications from international applicants. International students will not be charged the fee difference between the UK and international rates. Applicants should satisfy the UKRI eligibility requirements.
Selection process: Please see our website for further information.
Civil Engineering: Fully Funded PhD studentship in High-Order Mesh Generation for Complex Indus[...] employer: Swansea University
Contact Detail:
Swansea University Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land Civil Engineering: Fully Funded PhD studentship in High-Order Mesh Generation for Complex Indus[...]
✨Tip Number 1
Network like a pro! Reach out to current PhD students or faculty at Swansea University. They can give you the inside scoop on the application process and what the research group is really like.
✨Tip Number 2
Prepare for interviews by brushing up on your technical knowledge. Be ready to discuss high-order mesh generation and its applications in real-world scenarios. Show us you’re passionate about the field!
✨Tip Number 3
Don’t underestimate the power of a good follow-up. After any interaction, whether it’s an interview or a casual chat, drop a quick thank-you email. It keeps you fresh in their minds and shows your enthusiasm.
✨Tip Number 4
Apply through our website! It’s the best way to ensure your application gets seen. Plus, you’ll find all the details you need about the PhD programme and funding options right there.
We think you need these skills to ace Civil Engineering: Fully Funded PhD studentship in High-Order Mesh Generation for Complex Indus[...]
Some tips for your application 🫡
Tailor Your Application: Make sure to customise your application to highlight how your skills and experiences align with the specific requirements of the PhD position. We want to see how you can contribute to the project on high-order mesh generation!
Showcase Your Passion: Let your enthusiasm for civil engineering and research shine through in your written application. We love candidates who are genuinely excited about tackling complex industrial challenges, so don’t hold back!
Be Clear and Concise: Keep your writing clear and to the point. Avoid jargon unless it’s necessary, and make sure your ideas flow logically. We appreciate well-structured applications that are easy to read and understand.
Apply Through Our Website: Don’t forget to submit your application through our official website! It’s the best way to ensure we receive all your materials and can consider you for this exciting opportunity.
How to prepare for a job interview at Swansea University
✨Know Your Stuff
Make sure you brush up on high-order mesh generation and CAD-CAE integration. Familiarise yourself with the latest methodologies and software tools in this area, as well as the challenges faced by industries like aerospace and energy. This will show your passion and understanding of the field.
✨Showcase Your Skills
Prepare to discuss your previous projects or experiences related to geometric modelling and numerical techniques. Be ready to explain how your skills align with the requirements of the PhD position, especially in relation to complex industrial geometries.
✨Ask Smart Questions
Prepare insightful questions about the research group, ongoing projects, and collaborations with industry partners. This not only demonstrates your interest but also helps you gauge if the environment is the right fit for you.
✨Practice Makes Perfect
Conduct mock interviews with friends or mentors to get comfortable discussing your background and research interests. Practising common interview questions can help you articulate your thoughts clearly and confidently during the actual interview.
