利兹大学PhD Position in Fringe with benefits? Does particle segregation help or hinder carbon storage and sequestration projects in distal deep-marine sedimentary successions申请条件要求-申请方
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利兹大学
PhD直招介绍
About the Project
The EPSRC Centre for Doctoral Training in Future Fluid Dynamics is now recruiting to this fantastic PhD opportunity in partnership with LobeStore JIP*.
As a student on the CDT you will participate in a four-year programme that combines an integrated MSc (completed over the first two years) paired with a three-year PhD-level research programme. This gives you a combination of bespoke taught modules and inter-disciplinary research training.
You will be part of a supportive cohort of research students with different academic backgrounds, all focusing on different aspects of Fluid Dynamics. During the taught aspects of your course you will receive a range of tailored seminars, lectures and practical laboratories to cover the computational, experimental and analytical aspects of Fluid Dynamics. This provides you with a strong background to the fundamentals of Fluid Dynamics. In addition you will have access to a wide range of personal development activities. Further information on the CDT is available here: fluid-dynamics.leeds.ac.uk
The PhD project: Fringe with benefits? Does particle segregation help or hinder carbon storage and sequestration projects in distal deep-marine sedimentary successions
Submarine fan systems are volumetrically the largest sedimentary bodies on Earth. Traditionally, application of research into submarine fan evolution has focused on the distribution of rock properties directly relevant to hydrocarbon extraction. The large footprint of submarine fans means they are potential carbon storage sites, particularly their fringes, which are dominated by the deposits of turbulent particulate density flows. These settings are highly heterogenous in their sedimentology and mineralogy due to complicated, and poorly understood, particulate density flow dynamics and grain segregation processes during sediment transport. CO2 injection, migration and storage are dependent on reactions between CO2, brines, and reservoir rock. Therefore, the segregation of sediment grain size, shape, and mineralogy, and the role of pore- to reservoir-scale heterogeneities, remains a major uncertainty during CO2 injection. To reduce this uncertainty, the student will design and undertake physical experiments of dilute sediment gravity flows with mixed particle characteristics, validated with numerical simulations of grain transport in turbulent flows. These will advance understanding in the hydrodynamic segregation of minerals in the fringes of submarine fans to help prediction of reaction dynamics between CO2, brines, and reservoir rocks.
This PhD studentship will form part of LobeStore, a large Joint Industry Programme, led by the University of Manchester in collaboration with the University of Leeds. The student will develop a programme of physical experiments and numerical simulations to: i) investigate the hydrodynamic segregation of different grain types, ii) constrain the processes that distribute reactive minerals within deep-marine sandstones, and iii) assess their role in CO2 dissolution, and dissolution trapping at lobe fringes. Physical experiments will build on recent investigations into saline flow-topography interactions in the Sorby Environmental Fluid Dynamics Laboratory. These results will feed into ongoing and future CO2 sequestration projects via the industry partners.
The project supervisors at Leeds are Prof David Hodgson, Prof Mike Fairweather, Prof Jeff Peakall and Dr Gareth Keevil.
*The LobeStore Joint Industry Programme is an industry consortium of 6 companies seeking to reduce uncertainties in carbon capture and storage projects, led by the University of Manchester, but with David Hodgson as a co-I.
利兹大学 PhD Position in Fringe with benefits? Does particle segregation help or hinder carbon storage and sequestration projects in distal deep-marine sedimentary successions项目有没有奖学金,是不是全奖Phd招生,下面我们一起看一下【大学名称】Phd的奖学金资助情况
项目资助情况
Funding: Full standard studentship. Further details and eligibility: https://fluid-dynamics.leeds.ac.uk/programme/ .
利兹大学Phd申请条件和要求都有哪些?PhD Position in Fringe with benefits? Does particle segregation help or hinder carbon storage and sequestration projects in distal deep-marine sedimentary successions项目是不是全奖?有没有奖学金?下面我们一起看一下利兹大学申请Phd直招需要具备哪些条件和要求,以及托福、雅思语言成绩要到多少才能申请。
申请要求
Entry requirements: A degree equivalent to a UK first class honours, or a high upper second class, in an engineering, mathematics or science discipline.
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邮箱:fluid-dynamics@leeds.ac.uk
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