Grid Modernization and the Renewable Energy Transition

Webinar details

Grid modernization is essential for the renewable energy transition, transforming aging, centralized infrastructure into a flexible, digitalized, and resilient system capable of handling intermittent, decentralized energy sources like wind and solar. Key upgrades, including AI, advanced storage, and digital grid management, are critical to support decarbonization, electrification, and improved reliability.

A clear understanding of renewable integration is necessary to maintain grid stability and efficiency. Smart grid technologies enable real-time monitoring and intelligent control, ensuring a more adaptive and resilient power system.

• The webinar will be recorded and will be sent out to registered attendees afterwards.
• A certificate of attendance will be provided to attendees who request one near the end of the live webinar session.
• Please note: the time stated on this event is in UTC. You will need to convert this to your own time zone.

Key takeaways from this webinar

• Understanding renewable integration
• Smart grid technologies
• Demand-side management and regulatory frameworks

Related courses

This webinar/topic relates to our school of Electrical Engineering and is particularly found in the following courses:

• Professional Certificate of Competency in Renewable Energy Systems
• Professional Certificate of Competency in Smart Grids
• Professional Certificate of Competency in Power Distribution
• 52888WA Advanced Diploma of Applied Electrical Engineering (Power Industry)
• Online – Bachelor of Science (Electrical Engineering)
• Online – Master of Engineering (Electrical Systems)

To learn more about tuition fees, please click here.

About the presenter

Dr. Munira Batool, EIT Lecturer and Research Supervisor, Assistant Professor UET Taxila Pakistan

Dr. Munira Batool has over 17 years of extensive experience in teaching and research in the university sector. She is currently an Assistant Professor at the University of Engineering and Technology. She is also a Unit Lecturer and Higher Education Research Supervisor with the Electrical Engineering Department at EIT, Australia.

She has commendable teaching experience in power system generation, power system transmission, power system distribution and utilization, power system protection, and power system analysis. Her research interests include distributed energy generation-based power systems, renewable energy source integration and microgrids, and smart grids.

Initially, her research focused on improving the performance of distributed energy generation systems using meta-heuristic optimization techniques. More recently, her research efforts have involved the optimal sizing and siting of renewable energy sources (such as PV and wind) in distribution networks using novel power electronic converters and controllers.

She is a subject matter expert in modelling and simulating renewable energy-based power system networks using software commonly used in the industry. The results of her research have been published in high-ranking journals and conference papers.