Electrical Power Engineering
Computing, Engineering and Technology
Taught
MSc
Electrical Power Engineering
Taught
MSc
Overview
Application Timeline
Tuition
- Whole course
| Student categories | Study | |
|---|---|---|
| Full-time | Part-time | |
| EU | £17,975 | £17,975 |
| England | £11,325 | £11,325 |
| Northern Ireland | £11,325 | £11,325 |
| Scotland | £11,325 | £11,325 |
| Wales | £11,325 | £11,325 |
| International | £17,975 | £17,975 |
Requirements
Language requirements information is currently unavailable.
Modules
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About
Overview
This Master's program builds on prior knowledge in electrical or electronic engineering, focusing on the design and construction of modern power systems. It aims to enhance technical skills and advanced knowledge in electrical power while also developing professional, analytical, and management skills relevant to engineering business management.
Key Features
- Major research project based on industry links, focusing on areas like power electronics and renewable energy.
- Access to world-class laboratories at the Medway Campus in Kent.
- Development of trade skills, independent learning, and critical appraisal skills.
- Accreditation by the
Subject Area Information
Electrical power is a critical discipline within electrical engineering that focuses on the generation, transmission, distribution, and utilization of electric power. Courses in this discipline are designed to equip students with the theoretical knowledge and practical skills necessary to work in various sectors of the power industry.
1. Introduction to Electrical Power Systems
2. Power Generation and Renewable Energy
3. Power Transmission and Distribution
4. Electrical Machines and Drives
5. Power System Analysis and Control
6. Energy Management and Policy
- Understanding of fundamental electrical concepts
- Ability to analyze simple power systems
- Familiarity with different power generation technologies
- Knowledge of designing and operating power generation systems
- Proficiency in renewable energy technologies
- Understanding of energy storage solutions
- Ability to design and analyze transmission and distribution systems
- Understanding of grid reliability and stability
- Knowledge of smart grid innovations
- Proficiency in the operation and control of electrical machines
- Understanding of power electronics applications
- Skills in designing motor drives
- Ability to perform complex power system analyses
- Understanding of system stability and protection mechanisms
- Skills in using simulation software
- Knowledge of energy management strategies
- Understanding of policy and regulatory issues
- Skills in implementing energy efficiency measures
Career
A discipline in electrical power offers a comprehensive education that covers a wide range of topics essential for the modern power industry. Students gain both theoretical knowledge and practical skills, preparing them for various professional roles that contribute to the efficient and sustainable management of electrical power systems.
Power Engineer
Design, develop, and maintain power generation and distribution systems.
Renewable Energy Consultant
Specialize in the implementation and optimization of renewable energy projects.
Electrical Design Engineer
Focus on designing electrical systems for buildings, industrial plants, and infrastructure projects.
Energy Manager
Develop and implement strategies for energy efficiency and sustainability in organizations.
Power Systems Analyst
Perform analysis and optimization of power systems to ensure reliability and efficiency.
Utility Engineer
Work with utility companies to manage and improve electrical infrastructure.
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