Purpose of Role
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We are looking for a creative and highly motivated researcher willing to work as part of our international and multidisciplinary team and with expertise to support our research activities in the engineering of optimal porous materials for CO2 capture applications via a data-driven and system-based approach (AI4Capture). This position is an exciting opportunity to contribute to our efforts on designing novel materials that are tailored for the most economical carbon capture process. The project will involve the design of adsorption-based processes that can be used for screening of materials and their integration into our techno-economic PrISMa platform (Charalambous, C., Moubarak, E., Schilling, J. et al. A holistic platform for accelerating sorbent-based carbon capture. Nature 632, 89–94 (2024), with the ultimate aim of identifying top performing materials for specific carbon capture applications.
The primary objectives of the research are: 1) to develop process models and cycle designs that can be integrated into our screening techno-economic platform; 2) to identify the optimal targets for materials development for selected combinations of CO2 sources and sinks obtained after the process system analysis; and 3) to help developing data-driven approaches for speeding up the screening of materials and the evaluation of the performance of carbon capture processes.
The successful applicant must hold a PhD (or about to obtain) in chemical engineering, mechanical engineering, physics or related discipline (e.g. mathematics or other engineering) with background and demonstrable expertise in numerical modelling. The post is available from 1st March 2026 for 12 months in the first instance and could be extended further.
Key duties and responsibilities
The post holder is required to:
1. Conduct collaborative interdisciplinary research on numerical modelling of sorbent-based capture plants and developing other as-required modelling work to support the activities of the team
2. Have strong experience in numerical modelling, preferable with Python
3. Have a strong collaboration with the team and AI4Capture project partners to integrate process models with materials science, techno-economic analysis and life-cycle analysis
4. Work collaboratively with the team to achieve the project goals. This includes coordination of interdisciplinary teams, supervision of students/junior researchers and maintenance/support of the facilities/equipment
5. Prepare technical reports, posters and presentations for progress meetings, advisory board meetings and other as required dissemination activities
6. Project coordination with other partners, work both independently and as part of a team to achieve overall programme milestones to time, liaising with team members, collaborating project partners and sponsors
7. Take responsibility for progressing a primary research project, whilst also contributing to other projects underway within the team, e.g., supervising the activities of junior group members and PhD students
8. Contribute scientifically through scholarly acquisition and dissemination of research through the production of reports, publications, presentations and travel to meetings to outreach to the scientific community and general public
9. Analyse and interpret the results of own research and generate original ideas based on outcomes. Prepare proposals and applications to external bodies, e.g., for funding purposes. Use initiative and creativity to identify areas for research, develop new research methods and extend the research portfolio.
10. Assist the development of student research skills, and be expected to contribute to the assessment of student knowledge in the context of teaching and supervision duties
11. Develop research objectives and proposals for own or joint research with the assistance of a mentor, if required. Conduct individual and collaborative research projects, making use of relevant research techniques and methods
12. Contribute, under supervision, to the planning of research projects, including the development of new grant/contract proposals. Make internal and external contacts to develop knowledge and understanding and form relationships for future collaboration
13. Good communication skills and an appropriate publication record are essential
14. Continue to update personal knowledge and to develop skills within own specialist research area
15. The successful candidate is also expected to be involved in our outreach activities, with roles that can be tuned to the specific preferences of the candidate but will involve for example interviews, talks for the general public and preparation of experimental demonstrators
Education, Qualifications and Experience
Essential Criteria
16. PhD (or about to obtain) in chemical engineering, mechanical engineering, physics or related discipline (e.g. mathematics or other engineering) with background and demonstrable expertise in numerical modelling
17. Experience of applying numerical methods to solve sets of differential equations in a coding language such as: Python, MATLAB etc
18. Experience of using experimental data to tune and fit model parameters
19. Experience on process validation
20. Experience with knowledge sharing and training members of the team
21. Experience with publication of academic journal papers and reports
22. Strong organizational skills and project management
23. Working in an interdisciplinary field, where gaining knowledge of new areas and techniques is a constant requirement
24. Excellent communication and presentation skills, and ability to communicate complex information clearly
25. Must be able to work as part of a team on the work at Heriot-Watt University and more widely with the collaborators in AI4Capture
Desirable Criteria
26. Strong knowledge of Python. Experience of object-oriented programming and developing Python modules
27. Strong experience in integration of process data, thermophysical data and modelling approaches
28. Knowledge/interest on data-driven approaches, i.e. machine learning
29. Experience and knowledge in sorbent-based CO2 capture
30. Experience of interaction with industry
31. Experience supervising students
32. Skills in writing bids for research grants
How To Apply
Informal enquiries may be made to Prof Susana Garcia.
Applications can be submitted up to midnight (UK time) on Sunday 22nd February 2026.
Please submit your CV & covering letter via the Heriot-Watt on-line recruitment.
We welcome and will consider flexible working patterns e.g., part-time working and job share options.
Heriot-Watt University is committed to securing equality of opportunity in employment and to the creation of an environment in which individuals are selected, trained, promoted, appraised, and otherwise treated on the sole basis of their relevant merits and abilities. Equality and diversity are all about maximising potential and creating a culture of inclusion for all.
About our Team Include a brief generic description below about the team the post holder will be working in. This is the paragraph that appears first on the HWU website to attract applicants.
The Research Centre for Carbon Solutions (RCCS) is an internationally leading engineering centre, inspiring and delivering innovation for the wider deployment of technologies needed to achieve decarbonisation and meet net zero targets and beyond. Research is cross-disciplinary bringing together engineers and scientists. RCCS collaborates with, and is supported by, industries, international energy policy advisors, government organisations, regional development agencies and national and international universities and research centres. RCCS has extensive, state-of-the-art, laboratory facilities covering the whole CCUS chain, including equipment for CO2 capture, transport, storage, utilization and monitoring. RCCS has over 50 members (staff and PhD students) and Prof Susana Garcia is the Associate Director for Carbon Capture and Storage at RCCS. The team’s research portfolio has a total value of active projects of >£17million, including funding from EPSRC, UKRI, EU H2020, EU-ERC and industries.