Course summary
The Subsurface Energy Engineering Masters Programme offers a fascinating integrated taught and research curriculum in the context of energy and utilisation of subsurface systems to achieve cleaner and more sustainable energy. Research studies show that global demand for energy will increase 25% by 2050. To meet this demand while addressing the global warming challenge by moving towards cleaner energy, multi-dimensional societal, engineering-focused, managerial, and political efforts are needed. It is expected that two thirds of the global energy to be covered by renewable sources by 2050. However, the transition from fossil fuels to the renewable energy requires an integrated sustainable utilisation of existing energy sources including conventional fossil fuels and development of new technologies for decarbonisation and clean energy. Geosystems in this context play a critical role as they not only offer sources of fossil fuels (oil and gas) but also renewable energy (e.g., geothermal energy) and capacity for decarbonisation (geological CO2 sequestration). The MSc Subsurface Energy Engineering - jointly developed in collaboration with the Department of Earth and Environmental Sciences - will give a unique opportunity to students - with a prior qualification in engineering - to learn engineering and modelling skills required such as subsurface characterisation, rock and fluid physics, multiphase flow and transport in subsurface system, reservoir modelling and simulations, and reservoir fluid thermodynamics. Students will acquire a deep and systematic conceptual understanding and practical engineering skills needed for diverse industry applications such as reservoir engineering, geothermal engineering and carbon sequestration. Additionally, the programme offers unique opportunities to talented students to work with the industry during the MSc research.
How to apply
International applicants
This course has a subject classification which requires students whose nationality is outside the European Economic Area (EEA) or Switzerland to have an ATAS certificate, irrespective of country of residence at the point of application.
Further information can be found on the UK Government's website: www.gov.uk/academic-technology-approval-scheme
Entry requirements
Upper second (2.1) class honours degree in engineering subjects (chemical, civil, mechanical, petroleum engineering), or in geological sciences (geology, geophysics, petroleum geology, petrophysics, hydrogeology) with an evident background in engineering mathematics. Relevant industrial experience may also be considered alongside a previous degree.
Fees and funding
Tuition fees
No fee information has been provided for this course
Tuition fee status depends on a number of criteria and varies according to where in the UK you will study. For further guidance on the criteria for home or overseas tuition fees, please refer to the UKCISA website .
Additional fee information
Sponsorship information
Across our institution, we offer a number of postgraduate-taught scholarships and awards to outstanding UK and international students each year. The University of Manchester is committed to widening participation in master's study, and allocates £300,000 in funding each year. Our Manchester Masters Bursaries are aimed at widening access to master's courses by removing barriers to postgraduate education for students from underrepresented groups. For more information, see the Department of Chemical Engineering and Analytical Science Fees and funding page or visit the University of Manchester funding for masters courses website for more information.
Provider information
University of Manchester
Oxford Road
Manchester
M13 9PL