There is a strong industrial demand for skilled engineers capable of spanning the mechanical and electrical engineering disciplines. This degree gives you the fundamental knowledge and tools to satisfy this demand in a unique way focussing on electro-mechanical energy conversion.
During this course, you will study units from the mechanical and electrical disciplines along the following themes:
design and integration of electro-mechanical systems;
energy conversion and actuation systems;
embedded systems and control;
power electronics and electric drives; and
energy management.
Years one and two offer a grounding in mathematics, thermal management, dynamics and control, computing, electrical energy technologies, and analogue and digital electronics. Laboratory work and case studies will draw together these interdisciplinary foundations.
In the third year, as well as classroom-based subjects, you will engage in an individual research project in which you will apply the knowledge and skills that you have developed, focussing on a specific topic area from actuation and sensor systems and intelligent adaptable power systems to efficient, clean propulsion technologies.
Mechanical and electrical engineering graduates will be able to innovate technologies in a range of areas. These might include:
the power flow of renewable energy microgrids, from the wind to the electric generator and the power network to the user in the home;
actuation systems for motion control or robotics used in healthcare and manufacturing;
the complete power train of future electric vehicles, from the energy storage system, through to the electric motors, to the mechanical drivetrain and traction system;
efficient energy storage, allowing sensors to operate in previously inaccessible and far-reaching locations.
