Why this course?
This is the UK’s first two-year full-time MSc in Advanced Electrical Power Engineering.
To be an effective power engineer you need a good knowledge of underpinning technologies and user and application requirements. You also require a firm understanding of the business and regulatory landscape that national and multinational power and utility companies must work within.
This course brings together advanced expertise in all aspects of electrical energy and power systems, complemented by studies in electricity markets and power systems economics.
The course is designed to provide the advanced training you need for a career in the dynamic power and energy sectors.
See the website https://www.strath.ac.uk/courses/postgraduatetaught/advancedelectricalpowerengineering/
- Year 1
You'll take a selection of compulsory and optional taught classes. This is combined with training in business and project management skills and research methodologies and techniques.
Potential Year 2 research projects are explored during this year through completion of a mini-project, with a final topic agreed for the start of Year 2.
- Year 2
You'll undertake a major research project within the electrical power and energy disciplines. You'll also select a number of advanced taught modules designed to broaden your understanding of your chosen topic.
You'll have exclusive access to our extensive computing network and purpose built teaching spaces including our outdoor test facility for photovoltaics high voltage laboratory, equipped with the latest technologies including:
- LDS 6-digital partial discharge test & measurement system
- Marx impulse generators & GIS test rigs
- £1M distribution network and protection laboratory comprising a 100kVA microgrid, induction machines and programme load banks
You'll have access to the UK’s only high-fidelity control room simulation suite and the Power Networks Demonstration Centre (PNDC). This is Europe’s first centre dedicated to the development and demonstration of “smart-grid” technologies.
Learning & teaching
We use a blend of teaching and learning methods including interactive lectures, problem-solving tutorials and practical project-based laboratories. Our technical and experimental officers are available to support and guide you on individual subject material.
Each module comprises approximately five hours of direct teaching per week. To enhance your understanding of the technical and theoretical topics covered in these, you're expected to undertake a further five to six hours of self-study, using our web-based virtual learning environment (MyPlace), research journals and library facilities.
The teaching and learning methods used ensure you'll develop not only technical engineering expertise but also communications, project management and leadership skills.
You'll undertake group projects. These will help to develop your interpersonal, communication and transferable skills essential to a career in industry.
Guest presentations are a regular feature of the courses. These are often done by industry partners or department alumni. Speakers will share with you how they have put their knowledge and learning into practice in the world of work.
Interaction with industry is provided through our internships, teaching seminars and networking events. The department delivers monthly seminars to support students’ learning and career development. Iberdrola, National Grid, ScottishPower, SSE, Siemens and Rolls-Royce are just a few examples of the industry partners you can engage with during your course.
A variety of assessment techniques are used throughout the course. You'll complete at least six modules in Year 1. Each module has a combination of written assignments, individual and group reports, oral presentations, practical lab work and, where appropriate, an end-of-term exam.
Assessment of the Year 2 research project consists of four elements, with individual criteria:
1. Interim report (10%, 1500 – 3000 words) – The purpose of this report is to provide a mechanism for supervisors to provide valuable feedback on the project’s objectives and direction.
2. Poster Presentation (15%) – A vital skill of an engineer is the ability to describe their work to others and respond to requests for information. The poster presentation is designed to give you an opportunity to practise that.
3. Final report (55%) – This assesses the communication of project objectives and context, accuracy and relevant of background material, description of practical work and results, depth and soundness of discussion and conclusions, level of engineering achievement and the quality of the report’s presentation.
4. Conduct (20%) - Independent study, project and time management are key features of university learning. The level of your initiative & independent thinking and technical understanding are assessed through project meetings with your supervisor and your written logbooks.
Pre-Masters preparation course
The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde
. The Pre-Masters programme provides progression to a number of degree options.
To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.
The course provides the advanced level of knowledge and understanding required for challenging, well paid and exciting careers in the high growth power and energy sectors.
Employment prospects are excellent, with recent graduates working in power engineering consultancy, global power utilities (generation, supply and distribution), the renewable energy sector and manufacturing. They've taken up professional and technical positions as electrical engineers, power systems specialists, distribution engineer and asset managers in large energy utilities such as Iberdrola, EDF Energy and China State Grid. Graduates have also taken up roles in project management and engineering consultancy with companies such as Arup, Atkins Global, Ramboll, Moot MacDonald and AMEC.
How much will I earn?
Salaries for electrical engineers start at around £20,000 to £25,000. Experienced or incorporated engineers can earn between £28,000 and £40,000. A chartered electrical engineer can earn higher salaries of £40,000 to £55,000 or more.*
*Information is intended only as a guide.
A first or good second-class UK Honours degree, or equivalent qualification, in electronic or electrical engineering, from a recognised academic institution; Candidates whose first language is not English or who have not undertaken their undergraduate course in the UK must possess a recent UKVI-recognised English qualification.