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- Tasks: Conduct groundbreaking research on infrared heating and its impact on thermal comfort.
- Company: Join Swansea University, a leader in innovative energy technology research.
- Benefits: Fully funded PhD with a stipend of £20,780 and additional research expenses.
- Why this job: Make a real difference in energy efficiency and human comfort through cutting-edge research.
- Qualifications: Must have a 2.1 degree in Engineering or relevant science; computational science graduates welcome.
- Other info: Collaborate with industry leaders and gain valuable research experience in a dynamic environment.
The predicted salary is between 20780 - 20780 £ per year.
Organisation/Company Swansea University Department Central Research Field Engineering » Biomedical engineering Researcher Profile First Stage Researcher (R1) Positions PhD Positions Country United Kingdom Application Deadline 12 Nov 2025 – 23:59 (Europe/London) Type of Contract Permanent Job Status Full-time Hours Per Week 35 Offer Starting Date 1 Jan 2026 Is the job funded through the EU Research Framework Programme? Not funded by a EU programme Reference Number RS898 Is the Job related to staff position within a Research Infrastructure? No
Offer Description
Infrared heating heats people and surfaces directly, without heating the air in between. Thus, it is claimed that radiant heating can provide thermal comfort at lower internal air temperatures, thereby saving home and industrial energy. Furthermore, rapid response rates could enable heating to be delivered only where and when a room is occupied. These factors have led to claims by manufacturers of IR efficiencies like heat pumps. Currently, the Standard Assessment Procedure (SAP) attributes infrared heating the same CO2 equivalent as direct electrical heating. However, it is currently unclear if this is the case. As this is the methodology used by government to assess and compare the energy and environmental performance of dwellings, the current rating disincentivises developers from specifying the technology, hence there is a drive from the industry to address this.
To answer this question requires an interdisciplinarity approach, combining Industry input alongside physical sciences and physiological assessment of human temperature.
Indoor thermal comfort is perceived in humans with wide variance, by a variety of methods and does not have one industry standardised validated method. Equally, the current standard for testing the radiant efficiency of low temperature radiant heaters (BSEN 60675-3 (2021)) does not consider human thermal comfort. Humans are radiant objects. More than 60% of the sense of comfort or discomfort is governed by their radiant heat gain or loss, only 15% by air temperature and movement. This means a human may express feelings of warmth if either they are absorbing heat from the environment or reducing the radiation of body heat to it. For most people, the body is either gaining or losing too much body heat if the environment is more than 26°C or less than 16°C, with associated feelings of discomfort.
At Swansea University we can monitor a range of perceptual, physiological and temperature parameters, alongside an array of other physiological monitoring tools to measure energy expenditure, and in blood sampling under thermoneutral or hyperthermic environments. In addition, SPECIFIC is an Innovation and Knowledge Centre (IKC) based at Swansea University who focus on energy technology research particularly in developing \”Active Buildings.\” These buildings are designed to generate, store, and release their own renewable energy, aiming to reduce carbon emissions and address energy challenges. SPECIFIC have constructed a climatically controlled room capable of measuring the flow of electrical inputs and thermal outputs accurately independent of outdoor conditions. Finally, Herschel Infrared Ltd are a project partner who are a leading UK brand specializing in infrared heating solutions. They offer energy-efficient infrared heating panels for homes, commercial spaces, and outdoor areas. Their headquarters are in Bristol.
Combined, the ability to sensitively evaluate a human\’s perception of thermal comfort under well controlled environments offers an opportunity to develop protocols that seek to evaluate human thermal regulation and comfort in response to different infra-red radiant heat environments.
Our aim with this co-funded PhD studentship is to:
- Establish a pilot working methods for a reliable determination of infrared heating systems performance in situ.
- Establish standard operating procedures to allow for objective assessment of heating system effects on perceived thermal comfort and associated physiological responses in different population subgroups e.g. young, old, male, female etc.
- Develop a database of participants responses to infra-red heating. Providing rapid, responsive heating of individuals could drastically reduce space heating energy requirements while increasing thermal comfort.
Reduced upfront costs and a potential reduction in running costs could provide a viable heating alternative in IR heating, particularly for those facing fuel poverty.
English Language: IELTS 6.5 Overall (5.5+ each comp.) or Swansea University recognised equivalent. Full details of our English Language policy, including certificate time validity, can be found here.
Specific Requirements
UK fee eligible only
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. We also welcome applications from graduates in computational science or mathematics.
Note for international and European applicants: details of how your qualification compares to the published academic entry requirements can be found on our Country Specific Entry Requirements page.
Additional Information
This scholarship covers the full cost of tuition fees and an annual stipend at UKRI rate (currently £20,780 for 2025/26).
Additional research expenses of up to £1,000 per year will also be available.
Eligibility criteria
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. We also welcome applications from graduates in computational science or mathematics.
Selection process
Please see our website for more information.
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Biomedical, Physiology, Thermoregulation: Fully Funded PhD Studentship in the EPSRC Infra Red H[...] employer: Swansea University
Contact Detail:
Swansea University Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land Biomedical, Physiology, Thermoregulation: Fully Funded PhD Studentship in the EPSRC Infra Red H[...]
✨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 what the department is looking for and might even put in a good word for you.
✨Tip Number 2
Prepare for your interview by diving deep into the research areas of the project. Show us that you’re not just interested in the PhD, but that you’re genuinely excited about the work being done in infrared heating and thermal comfort.
✨Tip Number 3
Practice your pitch! Be ready to explain why you’re the perfect fit for this PhD. Highlight your background in engineering or relevant sciences and how it aligns with the project’s goals.
✨Tip Number 4
Don’t forget to apply through our website! It’s the best way to ensure your application gets seen. Plus, we love seeing candidates who take the initiative to follow the process.
We think you need these skills to ace Biomedical, Physiology, Thermoregulation: Fully Funded PhD Studentship in the EPSRC Infra Red H[...]
Some tips for your application 🫡
Tailor Your Application: Make sure to customise your application to highlight how your background in biomedical engineering or related fields aligns with the PhD project. We want to see your passion for infrared heating and thermal comfort!
Showcase Relevant Experience: Include any relevant research experience, projects, or skills that relate to the interdisciplinary nature of this PhD. If you've worked with physiological assessments or energy technologies, let us know!
Be Clear and Concise: Keep your application clear and to the point. We appreciate well-structured applications that are easy to read. Avoid jargon unless it's necessary, and make sure your enthusiasm shines through!
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 details correctly and can process your application smoothly!
How to prepare for a job interview at Swansea University
✨Know Your Stuff
Make sure you understand the fundamentals of infrared heating and thermal comfort. Brush up on relevant engineering principles and be ready to discuss how they apply to the research project. This shows your genuine interest and expertise in the field.
✨Show Your Passion for Research
Express your enthusiasm for the interdisciplinary approach of the PhD studentship. Talk about any previous research experiences or projects that relate to energy efficiency or human physiology, and how they have shaped your interest in this area.
✨Prepare Thoughtful Questions
Have a few insightful questions ready to ask the interviewers. This could be about the specific methodologies they plan to use or how they envision the collaboration with industry partners like Herschel Infrared Ltd. It shows you're engaged and thinking critically about the role.
✨Practice Your Communication Skills
Since this role involves working with diverse populations, practice explaining complex concepts in simple terms. Being able to communicate effectively will be key, especially when discussing findings with non-experts or stakeholders.
