Probabilistic Modelling and Analysis of Power System Dynamics and Stability
This presentation will demonstrate the most widely used probabilistic methods applied to power system stability analysis with their specific applications in frequency stability, small-disturbance stability, transient stability, and voltage stability.
Overview
The stability analysis of power systems with a high share of renewable generation is essential to appropriately consider the impact of variability and intermittency of renewable generation on the grid. Major renewable generation sources such as solar PV and wind are intermittent, and therefore, uncertainty modelling and probabilistic analysis are essential for accurately quantifying their contributions to electrical grids. This presentation will demonstrate the most widely used probabilistic methods applied to power system stability analysis with their specific applications in frequency stability, small-disturbance stability, transient stability, and voltage stability. The results will demonstrate the most critical stability challenges in renewable-rich grids at different system loading conditions and will present all 4 types of stability analysis results with underlying insights.
Presenters
Kazi N. Hasan, Senior Lecture, School of Engineering, RMIT University, Australia
Brief Biography
Dr Kazi Hasan has delivered 15 government and industry-funded projects worth AUD 5 million over the past 5 years on the grid integration of new energy systems and grid-enhancing technologies. His expertise includes power system modelling and simulation, system stability, reliability, and economic analysis. Dr Hasan has published more than 100 peer-reviewed scientific articles on modelling, analysis, planning and operation of grids and microgrids with energy storage, electric vehicles, and distributed energy resources. He contributed significantly to the grid-flexibility assessment and enhancement projects in Australia and in Europe, as evidenced by the funded projects and reports. Dr Kazi Hasan is the Theme Lead of Transport Electrification within the Energy@RMIT network. He is a senior member of IEEE and currently serves as the Chair of IEEE PES Victorian Chapter, Australia.