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aims of this Leverhulme Trust-funded project are to valorise carbon dioxide and set the path towards viable technologies for defossilisation of the energy sector and chemical industry. To do so, the
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join a vibrant, supportive research community (around 20-25 people involved in fluids modelling research). Real-World Impact: Contribute to transformative technologies in clean energy and carbon capture
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power systems. You will join a large group of postgraduate students in the Faculty of Engineering, working on many aspects of solar energy and zero carbon technologies. The team of potential PhD
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separation, and structural stability evaluation. The successful candidate will be based at CAPTURE (Circular Approaches To Utilise and Retain Energy), a Centre of Expertise at Swansea University, established
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Using capturing carbon dioxide and clean hydrogen is essential for a sustainable future in energy and chemical production. However, the transition is hindered by a lack of efficient, affordable
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supervisor Dr Lei Xing has built strong track record in circular chemical economy, green energy, carbon capture and utilisation, AI and digitalisation. Supervisors:Dr Lei Xing and Professor Jin Xuan Entry
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Application Deadline: Applications accepted all year round Details Carbon Capture and Storage (CCS) is an emerging near-zero emission technology that can applied to next generation gas turbine based power
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bioprocessing technologies to deliver efficient pathways for upcycling captured carbon into high value products. The successful candidate will have a PhD, or be studying towards a PhD, in synthetic biology or a
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; EPSRC Centre for Doctoral Training in Green Industrial Futures | Edinburgh, Scotland | United Kingdom | 3 months ago
deployment of Carbon Capture Utilisation and Storage (CCUS) is critical for achieving the UK's net-zero target set by the Climate Change Act (2008). With commercial agreements in place for two Track-1 clusters
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-value reinforcements in their short and randomly aligned form. A key challenge to the effective reintegration of recycled carbon and glass fibres into high-performance products lies in achieving scalable