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Position: Research Associate
Institution: Imperial College London
Location: London, United Kingdom
Duties: The specific motivation of the project is to understand the pore- and mineral-surface-scale processes that underpin improved oil recovery during controlled salinity waterflooding. It is well known that modifying the composition of injected brine can improve the efficiency with which oil is displaced from the pore-space of a reservoir rock. The successful candidate will be expected to regularly publish papers in international refereed journals, and present their research at relevant international conferences
Requirements: Applicants should be educated to PhD level in any of the following disciplines: physics, mathematics, engineering, materials science, petrophysics, numerate and/or experimental earth or environmental science, or equivalent. You will be offered extensive opportunities for collaborative work both within and external to Imperial College, to acquire high quality laboratory data and develop new physical understanding
   
Text: Research Associate Apply now Save this job Job summary Applications are invited for a Research Associate to join a multidisciplinary project in the NORMS (Novel Reservoir Monitoring, Modelling and Simulation) Laboratory for Reservoir Physics at Imperial College London. The project will investigate the zeta potential of natural carbonate rocks. The focus is primarily experimental, using an established method and leading-edge equipment to determine the impact of temperature, brine composition and... Job listing information Reference ENG00572 Date posted 23 November 2018 Closing date 18 January 2019 Key information about the role Location South Kensington Campus (map) Position type Full time, fixed term Salary £37,904 - £45,547 plus benefits Department Department of Earth Science & Engineering Category Researcher / Non Clinical Researcher Job description Job summary Applications are invited for a Research Associate to join a multidisciplinary project in the NORMS (Novel Reservoir Monitoring, Modelling and Simulation) Laboratory for Reservoir Physics at Imperial College London. The project will investigate the zeta potential of natural carbonate rocks. The focus is primarily experimental, using an established method and leading-edge equipment to determine the impact of temperature, brine composition and wetting state. However, theoretical or numerical models may also be developed, constrained by the experimental data. The specific motivation of the project is to understand the pore- and mineral-surface-scale processes that underpin improved oil recovery during controlled salinity waterflooding. It is well known that modifying the composition of injected brine can improve the efficiency with which oil is displaced from the pore-space of a reservoir rock. The processes that dictate the optimum brine composition are still poorly understood, but previous work suggests that changes in the zeta potential of the oil-brine and mineral-brine interfaces play a key role. The aim of this project is to test this hypothesis using natural carbonate rock samples and a range of brine and crude oil compositions. Duties and responsibilities This is an exciting opportunity for a talented individual to work within a large multi-disciplinary research group developing and applying advanced experimental techniques to measure and understand the self-potential in natural porous media for a wide variety of applications. The post is funded by TOTAL and is part of a substantial research program at Imperial College London. The successful candidate will be expected to regularly publish papers in international refereed journals, and present their research at relevant international conferences. Essential requirements Applicants should be educated to PhD level in any of the following disciplines: physics, mathematics, engineering, materials science, petrophysics, numerate and/or experimental earth or environmental science, or equivalent. You will be offered extensive opportunities for collaborative work both within and external to Imperial College, to acquire high quality laboratory data and develop new physical understanding. Experience in one or more of the following areas would be desirable: theory and measurement of zeta potential and other electrical properties of natural porous media; theory and measurement of self-potential; experimental measurement of multi-phase flow in porous media; theoretical or numerical modelling of zeta potential; petrophysics. You will join a dynamic, close-knit research team working on a challenging project. Your research will also contribute to the Department’s ongoing experimental program in multi-phase porous media flow, and successful applicants will be encouraged to develop their research careers over a longer timescale within this framework. Further information This is a 12 month fixed term contract Informal inquiries about the position can be made to Professor Matthew Jackson, e-mail m.d.jackson@imperial.ac.uk tel. 44 (0) 20 7594 6538. If you experience any technical issues when applying, please contact our Recruitment team ( recruitment@imperial.ac.uk ) Should you have any queries about the application process please contact Katie Rycraft ( K.rycraft@imperial.ac.uk ). Documents Research Associate Job Description.pdf About Imperial College London Imperial College London is the UK’s only university focussed entirely on science, engineering, medicine and business and we are consistently rated in the top 10 universities in the world. You will find our main London campus in South Kensington, with our hospital campuses located nearby in West and North London. We also have Silwood Park in Berkshire and state-of-the-art facilities in development at our major new campus in White City. We work in a multidisciplinary and diverse community for education, research, translation and commercialisation, harnessing science and innovation to tackle the big global challenges our complex world faces. It’s our mission to achieve enduring excellence in all that we do for the benefit of society - and we are looking for the most talented people to help us get there. Additional information Please note that job descriptions cannot be exhaustive and the post-holder may be required to undertake other duties, which are broadly in line with the above key responsibilities. All Imperial employees are expected to follow the 7 principles of Imperial Expectations: Champion a positive approach to change and opportunity Communicate regularly and effectively within, and across, teams Consider the thoughts and expectations of others Deliver positive outcomes Encourage inclusive participation and eliminate discrimination Develop and grow skills and expertise Work in a planned and managed way In addition to the above, employees are required to observe and comply with all College policies and regulations . Imperial College is committed to equality of opportunity, to eliminating discrimination and to creating an inclusive working environment. We are an Athena SWAN Silver award winner, a Stonewall Diversity Champion, a Disability Confident Employer and work in partnership with GIRES to promote respect for trans people.
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