Whether you're from an engineering, scientific or technical background, this programme will equip you with expertise in new and traditional energy technologies, renewable energy sources, solid waste recycling, air pollution, climate change and energy management systems.
You'll gain an understanding of the environmental impacts of energy technology choices and the technical expertise to further develop them, preparing you to handle the complex challenges created by the growing energy demands, climate change and urban growth of the 21st century.
Core modules will build your knowledge of topics like atmospheric pollution controls, as well as a range of renewable technologies. You'll also choose from optional modules that suit your interests and career plans such as combustion theory, energy management or fuel processing.
You'll benefit from the chance to study in cutting-edge facilities where our researchers are pushing the boundaries of sustainable energy engineering. We have a wide range of analytical facilities for advanced fuel characterisation, environmental monitoring and pollution control.There are also pilot scale combustion systems, and wide range of experimental facilities researching the production of low carbon fuels and energy from waste and new materials such as biomass and algae. In our Energy Building, you'll even find a full scale engine testing and transport emissions suite, and pilot scale wave power, fuel cell, gas turbine power station, wind and solar labs and rigs.
The course is accredited by the Energy Institute (EI) under licence from the UK regulator, the Engineering Council, which adheres to the requirements of further learning for Chartered Engineer (CEng) status.Watch on Youku
Core modules will develop your understanding of key topics such as how air pollution and carbon emissions can be measured and controlled, as well as their impact on the surrounding environment. You'll also focus on renewable technologies such as wind, solar and geothermal energy and hydroelectricity.
In addition, you'll consider waste and biomass as renewable technologies and how energy can be recovered from landfill and waste incineration. You'll also gain a broader understanding of the contexts in which these technologies are emerging, including related legal, environmental and financial issues.
With this foundation, you'll specialise in areas that suit your interests and career ambitions when you choose from optional modules. You could focus on energy management and conservation, or how developments in engine technology are making transportation more fuel efficient, among other topics.
In the latter part of the year, you'll focus on your research project. You'll choose your topic - normally related to one of our world-class research institutes - and work closely with your supervisor to apply what you've learned to a real-life problem.Want to find out more about your modules?
Take a look at the Energy and Environment module descriptions for more detail on what you will study.
These are typical modules/components studied and may change from time to time. Read more in our Terms and conditions.
- Research Project (MSc) 60 credits
- Pollution Sampling and Analysis 15 credits
- Renewable Technologies 30 credits
- Atmospheric Pollution: Impacts and Controls 30 credits
- Advanced Renewable Technologies 15 credits
- Combustion Theory and Design 15 credits
- Energy Management and Conservation 15 credits
- Fuel Processing 15 credits
- Advanced Engines and Turbines 15 credits
For more information on typical modules, read Energy and Environment MSc in the course catalogue
Learning and teaching
Our groundbreaking research feeds directly into teaching, and you'll have regular contact with staff who are at the forefront of their disciplines. You'll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings. Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.
You'll be assessed using a range of techniques including case studies, technical reports, presentations, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.
Applying, fees and funding
A bachelor degree with a 2:2 (hons) in an engineering, physical science or mathematics discipline.
All applicants will need to have GCSE English Language at grade C or above, or an appropriate English language qualification.
We accept a range of international equivalent qualifications.
English language requirements
IELTS 6.5 overall, with no less than 6.0 in any component. For other English qualifications, read English language equivalent qualifications.
Improve your English
If English is not your first language, you may be able to take a pre-sessional course before you begin your studies. This can help if you:
- don't meet the English language requirements for your course or
- want to improve your understanding of academic language and practices in your area of study.
Our pre-sessional courses are designed with a progression route to the degree programme and are tailored to the subject area. For information and entry requirements, read Language for Engineering (6 weeks) and Language for Science: Engineering (10 weeks).
How to apply
Applicants are encouraged to apply as early as possible.
This link takes you to information on applying for taught programmes and to the University's online application system.
If you're unsure about the application process, contact the admissions team for help.
Read about visas, immigration and other information in International students. We recommend that international students apply as early as possible to ensure that they have time to apply for their visa.
Faculty of Engineering Taught Postgraduate Admissions Policy
UK/EU: £10,250 (total)
International: £22,000 (total)
Read more about paying fees and charges.
For fees information for international taught postgraduate students, read Masters fees.
Additional cost information
There may be additional costs related to your course or programme of study, or related to being a student at the University of Leeds. Read more about additional costs
Scholarships and financial support
The Faculty of Engineering and the School of Chemical and Process Engineering offer a range of scholarships for UK, EU and International students. For some programmes, there may also be external sources of funding available to some students. Find out more about our Scholarships.
The need for all businesses and industrial companies to reduce their greenhouse gas emissions will be a major driver of future development. Graduates with the skills offered by this course will be in high demand.
Typically, graduates 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.
You'll also be well prepared for PhD level study and a career in academic research.
You'll have access to the wide range of engineering and computing careers resources held by our Employability team in our dedicated Employability Suite. You'll have the chance to attend industry presentations, book appointments with qualified careers consultants, and take part in employability workshops. Our annual Engineering and Computing Careers Fairs provide further opportunities to explore your career options with some of the UK's leading employers.
The University's Careers Centre also provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.
The research project is one of the most satisfying elements of this course. It allows you to apply what you've learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.
Recent research projects by students on this programme have included:
- Potential of marine biomass for production of chemicals and biofuels
- Influence of particle size on the analytical and chemical properties of Miscanthus energy crop
- Assessing the exposure of commuters to traffic generated particles:
- a comparison of transport options
- Location of solar farms under climate change
- Steam reforming of waste pyrolysis oils for sustainable hydrogen production
A proportion of research projects are formally linked to industry, and can include spending time at the collaborator's site over the summer.
Related coursesElectrical Engineering and Renewable Energy Systems MSc(Eng)
Environmental Engineering and Project Management MSc(Eng)