Sub synchronous Oscillation- Part 2

Service Description

Advanced Training on Sub-Synchronous Oscillations (SSO), Sub-Synchronous Control Interaction (SSCI), Sub-Synchronous Ferro Resonance (SSFR), and Sub-Synchronous Resonance (SSR) This specialized course is designed for engineers with a minimum of 3 years of experience in power system studies and transient analysis. The course will cover advanced topics in sub-synchronous oscillations (SSO), sub-synchronous control interaction (SSCI), sub-synchronous ferro resonance (SSFR), and sub-synchronous resonance (SSR), focusing on both conventional power plants and inverter-based resources (IBR). Course Content (only covers part two of this training): Part 1 (Introduction to Sub-Synchronous Oscillations): • Fundamentals of Oscillatory Modes: Understand the differences between various oscillations in the power system. • SSR in Conventional Power Plants: Explore the phenomenon of sub-synchronous resonance in traditional power plants and its impact on system stability. • SSCI in IBR Facilities: Study the interaction between inverter-based resources and conventional power plants, and how this affects system dynamics. • SSFR and Transformer Saturation: Learn about the behaviour of transformers under saturation conditions and the resulting effects on system resonance. Part 2 (Hands-on experience with PSCAD): • Network Conversion Requirements: Delve into the technical requirements for adapting the network to accommodate advanced control and protection systems. • Hands-on PSCAD Simulation: Gain practical experience simulating SSO, SSR, SSCI, and SSFR events using PSCAD, with a focus on transient analysis and stability studies. • SSO Damping Controllers: Learn about the implementation of damping controllers to mitigate sub-synchronous oscillations. • SSFR Protection Techniques: Understand the methods of protecting the network from the risks associated with sub-synchronous ferro resonance. Key Features: • Comprehensive coverage of key oscillatory modes in both conventional and IBR-integrated power systems. • In-depth training on SSR, SSCI, SSO, and SSFR phenomena. • Hands-on PSCAD simulations to develop practical skills in transient analysis and system stability. Who Should Attend: This course is ideal for power system engineers involved in stability analysis, protection design, and control systems for modern power grids, including those with high penetration of renewable energy and inverter-based resources.