|Study location||United Kingdom, Treforest Campus|
|Type||Master courses, part-time|
|Nominal duration||3 years|
|Tuition fee||To be confirmed|
Undergraduate diploma (or higher)
The entry qualification documents are accepted in any language
A motivation letter must be added to your application.
The global trend to produce electricity using cleaner, sustainable
technologies will lead to a strong demand for engineers with expertise
in these new technologies, both in UK and overseas markets. There is a
significant need for engineers with expertise in new vehicle
technologies, including hydrogen and electric vehicle propulsion
systems. The use of low-power lighting in domestic and commercial
environments is also becoming extremely important. The University’s
Faculty of Advanced Technology has established a reputation for
leading-edge research and consultancy in this area, which directly
informs the teaching on this course.
MSc Sustainable Power Technology degree is ideal for students with a
strong background in the areas of electrical, electronic and
mechatronic engineering. It as an ideal opportunity to gain expertise
in specialist areas such as low-power lighting design and hybrid
vehicle power train design. These new and exciting areas mean you will
study at the leading edge of this technology. The course includes a
significant practical element, so you can reinforce the theory
delivered in formal lectures through a range of practical assignments.
Download the MSc Sustainable Power Technology Brochure. The brochure
provides an overview of information that students will find useful
when making the decision to apply.
MSc Sustainable Power Technology Brochure (PDF, 236KB)
Possible Career Options
MSc Sustainable Power Technology will develop the vital knowledge and
skills for a career in the rapidly evolving areas of clean vehicle
technologies and renewable power generation and distribution. It is
expected that graduates will be equipped for employment in a range of
companies that employ renewable technologies. These would include
areas of clean electricity generation and distribution, hybrid vehicle
power train and battery technologies, low-power lighting and renewable
energy technologies such as wind turbines.