Course summary
Power system engineering is about keeping things in balance. Not just the balance between generation and load, but also about the balance between the cost of energy and its environmental impact or the balance between the security-reliability of the supply and the investments needed to develop the system. This programme will teach you how to apply technological advances and implement sophisticated computing techniques to power systems. The course has been significantly improved in several areas: you will learn static and dynamic modelling of electric machines and power electronics. You will be able to apply this modelling in dynamics and stability assessment, with particular emphasis on power converters stability. You will also learn control aspects of micro-grids, technologically advanced solutions in distribution networks, the fundamentals of communications in power systems, as well as the resilience aspects in modern power systems. During the first semester, you will learn about the power system physical phenomena and their static and dynamic modelling. You will do coursework in computer simulations and laboratories. In the second semester, you will apply the acquired knowledge to study stability, modern distribution networks, protection with communications, as well as planning and reliability of power systems. During the summer, your MSc dissertation project gives you a chance to develop your research skills and to explore in depth one of the topics discussed during the course.
Entry requirements
We require: - a good Upper Second Class Honours degree or international equivalent in electrical, electronic or mechatronic engineering, mechanical engineering, or chemical engineering. Other disciplines including computer science, mathematics, or physics will be considered on a case-by-case basis. And - evidence of strong relevant content within your degree programme. When assessing your academic record and the suitability of your degree background, we take into account your grade average with particular emphasis on relevant course units and the standing of the institution where you studied your qualification. We will be checking for sufficient relevant content in at least one of the following areas: electrical power systems, control and automation, maths and programming.
English language requirements
| Test | Grade | Additional details |
|---|---|---|
| IELTS (Academic) | 6.5 | IELTS at least 6.5 overall with no subtest below 6.0. |
| TOEFL (iBT) | 90 | TOEFL iBT : at least 90 overall with no subtest below 20. We do not accept 'MyBestScore'. We do not accept TOEFL iBT Home Edition. |
All applicants to the University (from the UK and Overseas) are required to show evidence of English Language proficiency. The minimum English Language requirement for this course is: -IELTS at least 6.5 overall with no subtest below 6.0. -TOEFL iBT : at least 90 overall with no subtest below 20. We do not accept 'MyBestScore'. We do not accept TOEFL iBT Home Edition. -Pearson PTE : at least 70 overall with no subtest below 65. -An acceptable equivalent English Language qualification .
Fees and funding
Tuition fees
No fee information has been provided for this course
Tuition fee status depends on a number of criteria and varies according to where in the UK you will study. For further guidance on the criteria for home or overseas tuition fees, please refer to the UKCISA website .
Additional fee information
No additional fees or cost information has been supplied for this course, please contact the provider directly.
Provider information
University of Manchester
Oxford Road
Manchester
M13 9PL