Course Objectives
- To apply the principles and techniques of modeling renewable energy sources in power system simulations.
- To examine the factors affecting transient stability in a renewable integrated power systems and evaluate strategies for enhancing stability.
- To apply techniques for conducting small-signal stability analysis in renewable integrated power systems.
- To assess voltage and frequency stability in renewable power systems and apply control and mitigation techniques.
- To assess the behavior of renewable energy systems during fault conditions and their impact on system protection.
- To identify power quality challenges associated with the integration of renewable energy sources into power systems.
- To recall the concept of unit commitment and apply optimization techniques for unit commitment considering the variability and uncertainty of renewable energy sources.
- To identify the pre-integration tests required for renewable power systems before connecting to the grid.
Course Outline
- Modelling and Simulation Aspects in Renewable Integrated Power Systems using PSSE and PSCAD software.
- Transient Stability Analysis in Renewable Integrated Power Systems.
- Small-Signal Stability Analysis in Renewable Integrated Power Systems.
- Frequency and Voltage Stability Analysis in Renewable Integrated Power Systems.
- Fault Analysis and Protection Aspects in Renewable Integrated Power Systems.
- Power Quality Aspects in Renewable Integrated Power Systems.
- Unit Commitment in Renewable Integrated Power Systems.
- Integration of Renewable Systems.
Target Group: Those who are engaged in the Power Sector, such as Electrical Engineers, Academics, Research Students
Resource Persons
Prof LNW Arachchige
Prof WDAS Rodrigo
Dr. WD Prasad
Prof. L Meegahapola
Dr. JVUP Jayatunga
Dr. LPMI Sampath
Duration
08 - Days (3 hours a day), 24 hours