ES97A-15 Operation and Control of Power Systems
ES97A-15 Operation and Control of Power Systems
This module aims to present the current (advanced) technologies and trends in development that will shape future electrical power systems. The students will gain a comprehensive knowledge and understanding of the construction, operation and control principles of power systems. They will learn advanced analytical skills for examining different modes of operation in complex systems. The content includes the following main elements:
- Generation, Transmission and Distribution of Electrical Power
- Balanced and Unbalanced 3-Phase Systems
- Load Flow Analyses
- Fault and Stability Analyses of Power Systems
- Power System Protection Concepts and Techniques
- Operational Security Control
- Benefits and Limitations of Wide Area Measurement (WAM)
- Effects and Management of Distributed Generation
- Flexible AC Transmission Systems (FACTS) and High Voltage DC
(HVDC) Transmission Technologies
- Power Quality Monitoring and Management
- Renewable Power Penetration and Grid Code Requirements
- The Role of Energy Storage and the Development of Relevant
- Smart Grids: Communications and standards, demand side response, wide area measurements, privacy and cyber security.
This is an indicative module outline only to give an indication of the sort of topics that may be covered. Actual sessions held may differ.
- Fundamentals of 3-Phase AC Power Systems
- Planning and Expansion of Power Systems
- Power Flow Calculation and Security Analysis of Network Operation
- Fault Calculation and Power System Protection
- Power System Stability Calculation and Control
- Wind Turbine/Farm Characteristics
- Challenges of Wind Power Integration in Power Systems
- Shunt Reactive Power Compensation Technologies
- Controllable Series Compensators in Transmission Networks
- HVDC Transmission – LCC Technologies
- VSC (voltage source converters) – HVDC
- Control of Grid-Connected VSC
- Flexible AC Transmission Systems (FACTS)
- Integration of Large Scale PV Generation
- Marine Renewable Generation
- Control of Power System Frequency and Voltage
- OLTC – On Load Tap Changer of Transformers
- Handling of Power Quality Issues in Power Systems
- Fault Level Management
- Combined Heat and Power
- Smart Grids: Communications and standards, demand side response, privacy and cyber security
By the end of the module, students should be able to:
- Evaluate the effectiveness of using wide area measurement systems.
- Critically assess the effects of future renewable penetration and distributed generation, and the ability to apply advanced control techniques.
- Demonstrate a systematic knowledge of the complex operation and control of modern power systems, of the constitution of current and future generation power systems, of load flow, of stability and faults in current generation and of future power systems, including frequency and voltage control.
- Demonstrate an advanced understanding of power quality monitoring and control.
- Understand the latest research developments in smart grids.
Indicative reading list
- Seifi H. and Sepasian M.S., Electric Power System Planning - Issues, Algorithms and Solutions, Springer 2011
- Wildi T., Electricl Machines, Drives, and Power Systems, Pearson Prentice Hall, 2014
- Weedy B.M., Cory B.J., Jenkins N., Ekanayake J.B. and Strbac G. Electric Power Systems (5th Ed), John Wiley & Sons, 2012
- Kundur P., Power System Stability and Control, McGraw-Hill, 1994
- Horowitz S.H. and Phadke A.G., Power System Relaying (4th Ed), John Wiley & Sons, 2014
- Freris L. and Infield D., Renewable Energy in Power Systems, John Wiley & Sons, 2020
Subject specific skills
|Lectures||26 sessions of 1 hour (17%)|
|Tutorials||2 sessions of 1 hour (1%)|
|Practical classes||2 sessions of 2 hours (3%)|
|External visits||1 session of 2 hours (1%)|
|Other activity||2 hours (1%)|
|Private study||114 hours (76%)|
Private study description
Guided Independent Learning 114 hours
Other activity description
2x1 hour Revision Class
No further costs have been identified for this module.
You must pass all assessment components to pass the module.
Assessment group D4
Voltage Control Philosophy of an Industrial Power System (9 pages)
Renewable Generation and Grid Impacts (9 pages)
QMP online examination
~Platforms - AEP,QMP
Feedback on assessment
The students will obtain feedback through contact with lecturer during office hours. Exercises will be given after every lecture and solutions will be provided in the next week. The students will also obtain written feedback on the laboratory quizzes. There will also be cohort level feedback on examinations.
This module is Core for:
- Year 1 of RESA-H6P9 Postgraduate Research Wide Bandgap Power Electronics
- Year 1 of TESA-H643 Postgraduate Taught Electrical Power Engineering
- Year 1 of TESA-H642 Postgraduate Taught Energy and Power Engineering
- Year 4 of UESA-H606 Undergraduate Electrical and Electronic Engineering MEng
This module is Optional for:
- Year 2 of TESA-H1A0 Postgraduate Taught Sustainable Energy Technologies
This module is Option list A for:
- Year 4 of UESA-H114 MEng Engineering