Pre-Masters Programme in Engineering and Sciences (2 Term), Leading to Master of Science in Electrical Power and Energy Systems

Study Group - University of Strathclyde International Study Centre

UK,Scotland

 0 Shortlist

18 Months

Duration

CAD 13,250/year

Tuition Fee

CAD 0 FREE

Application Fee

Mar 2025

Apply Date

UK, Scotland

Type: University

Location Type: Urban

Founded: 1964

Total Students: 22,000 +

Int. Students: 3,700 +

Campus Detail

Main Campus Address

40 George St, Glasgow G1 1XP, United Kingdom

Pre-Masters Programme in Engineering and Sciences (2 Term), Leading to Master of Science in Electrical Power and Energy Systems

Program Overview

Pre-Masters Programme in Engineering and Sciences
Pre-Masters Programme in Engineering and Sciences, this two-term pathway will prepare you for your chosen postgraduate degree at the Faculty of Engineering or Faculty of Science.

You’ll study useful skills for your Masters degree, such as research skills and communication, as well as an optional route module related to your progression goals. Our Academic English Skills module ensures your language ability is suited to postgraduate study at a UK university.

Once you have completed the Pre-Masters Programme in Engineering and Sciences, and subject to satisfying the progression criteria, you can proceed to your postgraduate degree at the University.

Leading to: Electrical Power and Energy Systems MSc
This MSc recognises the need for skilled graduates to address the world’s major issues in electrical power and energy systems. It offers an integrated programme that delivers advanced-level traditional power engineering subjects, complemented by a range of modules that are critical to the management of a modern energy system.

The balance of knowledge in fundamental power engineering, distributed energy resources, and technologies that enable greater system visibility will equip students in essential skills to lead the industry in the process of transformation to a sustainable energy future. The programme will focus on such areas as:

  • the design, operation and analysis of power supply systems;
  • power plant
  • renewables and industrial electrical equipment relating to a liberalised power supply industry
  • globalised markets and environmental drivers
  • technologies that facilitate a new level of system visibility, including sensors, IoT, data analytics and AI for energy systems
  • globalised markets and environmental drivers