Electrical Power and Energy Systems MSc

Program Overview

The Electrical Power and Energy Systems MSc program deepens students' knowledge in electrical engineering, focusing on electrical power networks and power electronic applications. It emphasizes future-facing trends in the industry, providing opportunities to contribute to the decarbonization of the power sector. The program is accredited by the Institution of Engineering and Technology and the Engineering Council, meeting the requirements for registration as a Chartered Engineer.

Program Outline

Extracted Information from "Electrical Power and Energy Systems MSc course"

Degree Overview:

• Designed to facilitate further learning in electrical power engineering and renewable energy systems.
• Deepens students' knowledge of electrical engineering topics covered in their undergraduate studies.
• Built around two specialist threads: electrical power networks and power electronic applications.
• Focuses on future-facing trends in the industry.
• Provides opportunities for students to contribute to the decarbonization of the power sector.

Outline:

• Comprises five core modules, each worth 20 credits.
• Core modules:
• Engineering Research Project: Independent research or design project on a contemporary engineering topic.
• Future Energy Demand: Collaboration with a team to assess future energy scenarios, implications, and solutions.
• Microgrids: Application of microgrids to optimize renewable generation using energy storage.
• Power Conversion for Energy Systems: In-depth exploration of power electronic converters and their role in power transmission.
• Renewable Energy Generation: Comprehensive understanding of principles, design, and grid-connected operations of wind and photovoltaic technologies.
• Smart Grids: Principles of operation, design, and utilization of smart grids for optimized power transmission and distribution.
• Sustainability: Exploring the role of engineers in serving society and industry, considering impacts on environment and society.
• Modules offered may vary.

Assessment:

• Assessment methodologies vary depending on the module.
• Possible assessments include in-course assignments, design exercises, technical reports, presentations, and formal examinations.
• Master's research project requires a dissertation.

Teaching:

• Learning methods include lectures, seminars, and practical sessions.
• Practical sessions provide an opportunity to apply theoretical knowledge to specific problems.
• Industry-specific software is introduced and used.
• Seminars allow for interactive learning and deep dive into important topics.

Careers:

• Potential career options include:
• Design, construction, commissioning, and maintenance of energy generation, conversion, and distribution systems.
• Managing energy storage systems, control systems, building energy efficiency, manufacturing, and processing systems.
• Assessing the environmental and economic impact of energy usage.
• Examples of specific job roles:
• Designing new electrical systems.
• Managing maintenance and repair of existing systems.
• Leading operations of wind turbine farms.
• Assessing the efficiency of hydroelectric power systems.
• Evaluating the economic viability of new solar installations.
• Analyzing the environmental implications of energy systems.

Other:

• Accredited by the Institution of Engineering and Technology (IET) and the Engineering Council as meeting the Further Learning requirements for registration as a Chartered Engineer.

Additional Points:

• Fees for UK/EU and international students are provided.
• Entry requirements include having a second-class (2.2) honours degree in a relevant engineering field.

Please note:

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Tuition Fees and Payment Information:

Full-time

2024/25 entry Fee for UK applicants £7,365 a year Fee for international applicants £17,000 a year

Part-time

2024/25 entry Fee for UK applicants £820 for each 20 credits