CRANFIELD UNIVERSITY

Research Assistant/Research Fellow in Energy Systems

2 days left

Location
Cranfield, United Kingdom
Salary
£30,000 or £32,656 per annum
Posted
17 Oct 2018
End of advertisement period
18 Nov 2018
Ref
2857
Contract Type
Fixed Term
Hours
Full Time

You will join a research team working on a number of projects in Clean Energy, including BEIS funded project entitled “Combined energy recovery and CO­ capture” and commercially funded project entitled “Molecularly imprinted polymers for CO2 capture”. In these projects, you will be responsible for development of experimental and numerical concepts for biogas cleaning.

Organisation Cranfield University
School/Department School of Water, Energy and Environment
Based at Cranfield Campus, Cranfield, Bedfordshire
Hours of work 37 hours per week, normally worked Monday to Friday
Contract type Fixed term contract
Fixed Term Period Until 31 December 2019
Salary £30,000 per annum (Research Assistant) or £32,656 per annum (Research Fellow)
Apply by 18/11/2018

Role Description

Cranfield is an exclusively postgraduate university that is a global leader for education and transformational research in technology and management. 

The School of Water, Energy and Environment leads in delivering Cranfield’s Mission for the themes of Water, Energy and Power and Environment and Agrifood. The School is committed to leading in its areas of expertise through investing in world class staff and facilities over the long term.

Cranfield’s expertise in energy and power covers a range of the potential energy solutions, from our ongoing relationship with oil and gas, to our developing reliance on renewable energy from the world around us. The changing energy landscape presents exciting opportunities and the potential for the UK to lead in new technologies and services related to low carbon energy and power generation.

We inform the energy and power industry and government because our expertise is world-renowned for both the engineering and management of energy solutions. Our research is making a difference in the sector: from increasingly efficient oil platforms to the cutting edge of renewable energy technologies.

You will join a research team working on a number of projects in Clean Energy, including BEIS funded project entitled “Combined energy recovery and CO­ capture” and commercially funded project entitled “Molecularly imprinted polymers for CO2 capture”. In these projects, you will be responsible for development of experimental and numerical concepts for biogas cleaning.

You will have a PhD (or close to completion) in Carbon Capture & Storage, Power Engineering, Energy, Chemical Engineering, Mechanical Engineering, or related discipline. You must have extensive experience in design and development of pilot-scale pressure swing adsorption (PSA) systems; characterisation of CO2 adsorbents by means of thermal analysis, attrition rate, cyclic stability, surface properties, selectivity, and capture capacity; and familiar with using CFD commercial software, such as Fluent. You will also have sound knowledge of Mechanical Engineering and Chemical Engineering principles and methods in the context of carbon capture and storage, energy, and power applications.l. You must have also demonstrated a strong track record via publications in high-quality journals.

For an informal discussion, please contact Dr Seyed Ali Nabavi, Lecturer in Energy Systems, on (T); +44 (0)1234 75 4225 or (E); s.nabavi@cranfield.ac.uk

At Cranfield, we value Diversity and Inclusion, and aim to create and maintain a culture in which everyone can work and study together harmoniously with dignity and respect and realise their full potential. We actively consider flexible working options such as part-time, compressed or flexible hours and/or an element of homeworking, and commit to exploring the possibilities for each role.

The European Commission’s ‘HR Excellence in Research Award’ demonstrates our commitment to supporting Research careers. 

Your career at Cranfield will be enhanced through access to fully equipped shared laboratory and pilot facilities, extensive research and business training through our learning and development team and doctoral training centres in a collegiate and supportive environment.

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