We are all increasingly aware that our present and future energy demands, and particularly our over-reliance on fossil fuels, contribute to global warming and can destabilise world economies. The impacts of climate change are becoming visible throughout the world, with receding glaciers, changing weather patterns, coastlines and ecosystems. The links between climate change and poverty and human health are a significant concern for the future.
Gas and oil prices have recently been very unstable, while world energy demand carries on rising. Developing renewable sources of energy is therefore of increasing importance. Urban populations are also continuing to grow, bringing with them waste disposal problems, traffic congestion and air pollution and greater power, heating and refrigeration needs.
As a response, we are now seeing changing energy policies worldwide, geared towards encouraging energy autonomy by developing renewable energies and recycling initiatives, as well as implementing low-carbon technologies. The UK climate change bill will be a driver for change. At the same time, pollution control guidelines and emission regulations have tightened both within the EU and worldwide. There will be an increasing demand for graduates with an understanding of the environmental impacts of energy technology choices and the technical expertise to further develop them.
This course is one of a handful of courses in the UK university sector that provides graduates from diverse engineering, scientific and technical backgrounds with expertise in new and traditional energy technologies, renewable sources of energy, solid waste recycling, air pollution and climate change, and energy management systems.
This course is taught in the School of Chemical and Process Engineering, which ranks highly in the league tables.
Find out about our MSc programme managers on our staff profiles page.
Course duration: 12 months (full-time)
Start date: September
Course fees (full-time): UK/EU: £10,000; International: £19,000
Scholarships: Scholarships worth up to £2,000 available.
Accreditation: The course is accredited by the Energy Institute (EI) under licence from the UK regulator, the Engineering Council, and it satisfies the requirements of further learning for Chartered Engineer (CEng) status.
You might also be interested in our other energy programmes.
MSc Sustainable Energy Systems
MSc Electrical Engineering and Renewable Energy Systems
The table below shows the modules that you will study if you commence your studies in September 2015. This information is taken from the University Programme Catalogue, which is a tool designed for current students to select modules.
If you are looking to start your studies in September 2016, it will provide you with an example of what you will study.
All of our MSc courses operate on a credit-based modular system. A standard module is typically worth 15 credits and the research project is worth 60 credits. You are required to study 180 credits in total.
|Pollution Sampling and Analysis||15|
|Atmospheric Pollution: Impacts and Controls||30|
|Advanced Renewable Technologies||15|
|Optional modules (30 credits)|
|Combustion Theory and Design||15|
|Energy Management and Conservation||15|
|Advanced Engines and Turbines||15|
This is an indicative list and actual content may vary as we regularly review the content of our courses in light of new experiences and developments in the field.
The need for all businesses and industrial companies to reduce their greenhouse gas emissions will be a major driver within future development. Therefore the demand for graduates with the skills offered by this course will be in high demand.
Typically, graduates of this course are likely to go on to work in senior posts with high levels of responsibility in energy and environmental consultancies, energy specialists, architectural firms, environmental departments of local authorities, government agencies, major funding bodies, large industrial companies and emerging businesses in the renewable sector. Some graduates choose the path of academic research and so subsequently undertake a PhD.
Every year our Careers Centre undertakes a destination of leavers survey with students six months after graduation. A selection of these destinations, from the last five years, can be found on our employability page.
A minimum of a UK second class honours degree (2.2), or equivalent, in an engineering, physical science or mathematics discipline.
We also welcome and accept students with a wide range of international equivalent qualifications.
English language requirement: GCSE English Language grade C (or above) or an equivalent recognised English Language qualification e.g. IELTS: 6.5 with not less than 6.0 in listening, reading, speaking and writing.
Our Language Centre provide a range of English for Academic Purposes Pre-sessional courses, which are designed to help international students develop their language and academic study skills.
If you require any further information please contact our admissions team,
e: firstname.lastname@example.org, t: +44 (0)113 343 2343.