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- Tasks: Explore thermal-chemical properties of advanced nuclear fuels using cutting-edge simulations.
- Company: Join Bangor University, a leader in nuclear materials research and innovation.
- Benefits: Gain hands-on experience, collaborate with experts, and contribute to sustainable energy solutions.
- Why this job: Be part of groundbreaking research that impacts future energy technologies and environmental sustainability.
- Qualifications: Must have a relevant degree in materials, physics, computer science, chemistry, or engineering.
- Other info: Work under the guidance of Dr. Tessa Davey and collaborate with top researchers.
The predicted salary is between 36000 - 60000 ÂŁ per year.
This PhD project is one of two projects being advertised in the School of Computer Science and Engineering at Bangor University that are supported by the TRANSPARANT project (Technological Research Action Necessary for Safe PARtitioning And Nuclear Transmutation) which aims to achieve advancements towards reducing waste generation and enhancing fuel efficiency in Generation IV fission technologies, as well as ensuring safe operation by making progress towards the qualification procedure of advanced nuclear fuels.
This PhD project will investigate thermal-chemical properties of fresh and irradiated minor-actinide bearing fuels using atomistic simulation methods. The objective of the overarching research is to obtain thermal and thermal-chemical data and further understanding of the mechanisms underlying the behaviour of minor actinide-bearing fuels during fabrication and in-reactor irradiation. This PhD project contributes to multiscale modelling of these effects.
In this PhD project, electronic structure calculations of structural and thermal-chemical properties including thermal conductivity will be performed for selected “Joint-Oxyde-Gaine” and “Reaction Oxyde-Gaine” (JOG/ROG) compounds, which can be represented with the element systems Cs-Te-Mo-Ba-I-O (JOG) and Cs-Cr-Mo-O (ROG). Other related materials systems relevant to the project will also be considered where appropriate. Complementary experimental work will take place by other researchers at Bangor University and collaborating institutions for comparison and validation of simulation work, and the results from the simulations will feed into CALPHAD phase diagram models.
Applicants should have an interest in high-performance computing, nuclear materials and engineering, effective communication skills, and a relevant degree in materials, physics, computer science, chemistry, engineering, or a related field.
Simulation of thermal-chemical properties of minor-actinide bearing fuels employer: Bangor University
Contact Detail:
Bangor University Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land Simulation of thermal-chemical properties of minor-actinide bearing fuels
✨Tip Number 1
Familiarise yourself with the latest advancements in nuclear materials and thermal-chemical properties. This will not only help you understand the project better but also allow you to engage in meaningful discussions during interviews.
✨Tip Number 2
Connect with current or former PhD students from Bangor University, especially those involved in similar research areas. They can provide insights into the application process and what the supervisors value in candidates.
✨Tip Number 3
Showcase your experience with high-performance computing and simulation methods in your conversations. Be prepared to discuss specific projects or coursework that demonstrate your skills in these areas.
✨Tip Number 4
Engage with the TRANSPARANT project’s community online. Participating in forums or webinars can help you network with professionals in the field and may give you an edge when applying for the position.
We think you need these skills to ace Simulation of thermal-chemical properties of minor-actinide bearing fuels
Some tips for your application 🫡
Understand the Project: Familiarise yourself with the TRANSPARANT project and its objectives. Highlight your understanding of thermal-chemical properties and how they relate to minor-actinide bearing fuels in your application.
Tailor Your CV: Ensure your CV reflects relevant experience in high-performance computing, nuclear materials, and engineering. Include any projects or coursework that demonstrate your skills in these areas.
Craft a Strong Cover Letter: Write a compelling cover letter that outlines your motivation for applying, your interest in the specific PhD project, and how your background aligns with the requirements. Mention your effective communication skills and any relevant research experience.
Highlight Relevant Skills: In your application, emphasise your technical skills related to atomistic simulation methods and electronic structure calculations. Provide examples of how you have applied these skills in previous studies or projects.
How to prepare for a job interview at Bangor University
✨Show Your Passion for Nuclear Materials
Make sure to express your genuine interest in nuclear materials and engineering during the interview. Discuss any relevant projects or experiences that sparked your enthusiasm for this field, as it will demonstrate your commitment to the PhD project.
✨Familiarise Yourself with Atomistic Simulation Methods
Since the project involves atomistic simulation methods, brush up on your knowledge of these techniques. Be prepared to discuss how you would apply them to investigate thermal-chemical properties, and mention any experience you have with similar simulations.
✨Prepare Questions About the Project
Come equipped with thoughtful questions about the PhD project and its objectives. This shows that you are not only interested in the position but also proactive in understanding how your work will contribute to advancements in fuel efficiency and waste reduction.
✨Highlight Your Computing Skills
Given the emphasis on high-performance computing, be ready to talk about your technical skills and any relevant programming languages or software you are familiar with. Providing examples of past projects where you utilised these skills can set you apart from other candidates.
