Master Power Engineering and Sustainable Energy - Máster en Ingeniería de Energía Sostenible
The global energy industry faces growing demand to discover ways to extract, process and use energy sources more efficiently, and to develop cleaner technology.
Development of environmentally-friendly energy systems requires professionals with a new mix of technological skills that encompass traditional fossil fuels and renewable energy. Our Masters in Energy Systems Engineering offers this balance, so you will learn how to provide effective and sustainable solutions to meet energy needs in different industries.
As well as traditional thermal engineering disciplines, you will study renewable energy and environmental topics, giving you a rounded appreciation of the industry. You will gain in-depth knowledge of core subject areas in energy systems engineering, as well as relevant financial, economic and regulatory issues. The course benefits from a strong research record and from industrial links established by our staff in industrial combustion and energy systems.
Licenciado/Título de Ingeniero/Título de Arquitecto with an average of 6.0-6.9, Aprobado or above
English language qualifications:
GCSE pass in English at Grade C or above
IELTS with an average overall score 6.5 with at least a 5.5 in each component
TOEFL IBT minimum score 88
Cambridge English: Advanced (CAE): exams taken from January 2015 – overall score of 176 with at least 162 in each component; exams taken before January 2015 – Grade C and no less than borderline in each skill
Trinity College English Language qualifications: ISE III Pass for postgraduate taught courses and research applications
City and Guild’s IESOL/ISESOL tests at expert and mastery levels (C2 and C1) for the majority of postgraduate programmes
Pearson Test of English Academic (PTE Academic) with a minimum of 67 points in each elemen
Don’t worry if you do not meet these requirements, we run a number of courses to prepare you for academic studies.
You will study the following modules:
Industrial Heating Processes
Computational Fluid Dynamics
Heat Transfer and Combustion
Research Methods for Engineers
Safety, Health and Environmental Management
Sustainable Energy Technology
And one of the following optional modules:
Integrative Project Planning and Management
Business and Risk Management
Independent Study for Engineers
Learning and teaching methods
The course is delivered in two major blocks that offer an intensive but flexible learning
pattern, with two start points each year – February and September.