Overview
Join Aston University on a British Council ISPF‑funded collaboration advancing an eco‑friendly, off‑grid desalination solution for Egypt. Working with South Valley University, the project integrates solar (thermal and PV) and geothermal energy with soil‑based thermal storage to enable reliable 24/7 operation of adsorption desalination. We also develop low‑cost sorption composites from locally available materials to enhance performance and affordability.
Responsibilities
* Lead laboratory development and characterisation of sustainable sorption composites (e.g., carbon‑based / salt‑hydrate composites) using DVS and thermal property testing (DSC/LFA).
* Build and validate high‑fidelity 3D/CFD models of core components, including soil‑coupled heat‑storage heat exchangers and the closed‑loop geothermal cooler.
* Integrate component models to support system‑level optimisation using TRNSYS and MATLAB/Python by the wider team.
* Design and execute bespoke experiments to generate model inputs and validation datasets; analyse results to refine models and designs.
* Collaborate closely with UK‑Egypt partners to inform overall system architecture for the hybrid solar/geo‑powered adsorption desalination unit (24/7 operation with closed heating/cooling loops).
* Contribute to techno‑economic assessment, benchmarking against incumbent technologies, and translate findings into design requirements/specifications.
* Support prototype definition and design reviews to enable downstream build and field demonstration with the Egyptian team.
* Prepare clear technical documentation: modelling reports, datasets, and design files; maintain versioned records in the shared project workspace.
* Disseminate outcomes through journal papers, conference contributions, and accessible briefs for stakeholders and workshops.
* Mentor and coordinate with ECRs/MSc/PhD contributors on methods, modelling, and experimental tasks.
* Adhere to project governance, deliver to milestones, and participate in regular progress/risk reviews with the consortium.
* Uphold research integrity, data management, and confidentiality practices throughout lab, modelling, and stakeholder‑engagement activities.
Qualifications
Essentials include a PhD (or near completion) in mechanical/chemical/thermal sciences or related field; hands‑on experience in sorption material synthesis and characterisation; CFD skills (e.g., ANSYS/COMSOL) for conjugate heat and mass transfer; proficiency with MATLAB/Python. Expected experiences with adsorption desalination or porous media, as well as renewable/low‑temperature thermal systems, are expected. You will work professionally with academics, researchers, engineers and technicians across the consortium.
Visa & Contact
This role may meet the requirements for Skilled Worker visa sponsorship. If you require sponsorship, Aston University will assess your eligibility if you are shortlisted for the role. Please note we are unable to confirm individual eligibility before shortlisting. For informal enquiries, please contact Dr Ahmed Rezk (a.rezk@aston.ac.uk). See here for more information on Skilled Worker visa eligibility: https://www.gov.uk/skilled-worker-visa.
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