Description
Overview:
This module provides students with detailed knowledge of the design, performance and analysis of electrical power systems. The module aims to achieve competency in using analytical methods for understanding the design and operational behaviour of electrical power systems under steady-state and transient conditions. It provides technical knowledge in electrical power system technologies such as generators, cables, distribution and protection, and end-use equipment so as to appreciate the design features for different electrical power distribution and electrical propulsion systems.
Through computer based software and with understanding of their algorithms, students become proficient at calculating performance parameters in small and large scale electrical power systems used in electric vehicle, electric ship or grid systems.
Topics covered:
Power System Representation
- Three-phase systems
- Per unit representation
- Impedance and reactance networks
- Network theory
- Waveform quality
- Matrix methods
Power System Technologies
- Synchronous machines
- Transformers
- Transmission lines and cables
- Loads
- Switchgear
- Protection devices
Power System Analytical Methods
- Load flows in simple and complex networks
- Fault analysis by method of symmetrical components
- Bus admittance methods
- System stability
- Control methods: frequency, voltage and power
- Harmonic penetration into networks
Electrical Propulsion
- Electrical v Mechanical v Hybrid propulsion
- Commonality and discord in transport applications
- Marine electrical propulsion in ships
- Naval electrical propulsion
- Rail traction
- Road vehicles
Learning outcomes:
Upon completion of this module students will be able to:
- Appreciate the components that make up electrical power systems and understand the similarities and differences between large, medium and small scale power systems.
- Develop skills needed to be able to design electrical power systems including analytical and computer based methods.
- Understand the behaviour of steady-state, transient and faulted networks and appreciate how such behaviour influences design.
- Understand the benefits of electrical propulsion and have the ability to undertake detailed design.
- Appreciate future developments and applications in electrical power and electrical propulsion systems.
Module deliveries for 2024/25 academic year
Last updated
This module description was last updated on 19th August 2024.
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