PhD Studentship - Solid State Substation Techniques for Future Electrical Energy Networks

Vision

We are seeking a PhD student that is motivated and passionate about the design and control of power electronics technologies that make real-world impact. Together we will make technological advances that bring compact, reliable and economical energy management.

Motivation

This PhD project focuses on the development of next-generation power electronics in the form of Solid-State Transformers which will provide key functionality in the electricity networks of the future which will feed, for example, high power charging systems and data centres and link renewable energy sources and energy storage elements.

Aim

The aim of the project is to consider the use of modern power electronics in multi-cellular converters to form Solid State Transformer systems. This will require a study of the current state of the art in SST topologies and control before developing new techniques for both to meet the demands of new loads such as high-power EV charging systems and data centres. You will work with Dr. Alan Watson, Dr. Tabish Mir and Prof. Pat Wheeler at University of Nottingham’s Power Electronics and Machines Centre, which is a purpose-built £18M facility at Jubilee Campus. The PEMC institute is globally renowned and one of the leading research entities in its field. The work is also supported by Siemens AG, Germany and will be led at the facility in Erlangen by Dr Gopal Mondal.

Who we are looking for

We are actively looking for candidates with

• A first-class (UK equivalent) undergraduate degree in Electrical and/or Electronics Engineering.
• A master’s degree in electrical engineering (particularly power electronics and/or electric drives) is desirable (Preferably Distinction (UK equivalent))
• Knowledge of simulation platforms like MATLAB Simulink/PLECS.
• Coding and hardware skills are desirable.
• Strong analytical/mathematical skills.
• Passion about research and willingness to learn.
• Good presentation, communication and writing skills.

Funding support

After a suitable candidate is found, funding is then sought from the University of Nottingham as part of a competitive process (this will cover home tuition fees and UKRI stipend plus a £5,500 a year top-up from the industrial partner)