Track 1. Electrical Power Engineering
• Planning, operation and control of transmission and distribution networks
• Smart grids and active distribution networks
• Microgrids, virtual power plants and standalone power systems
• Power system protection, reliability and resiliency
• Distributed, embedded and dispersed generation
• Grid integration of new technologies
• Circuits, systems, control and application of power electronics
• Applied control theories for power systems, electrical machines and transformers
• High voltage technology
• Asset management, fault diagnosis and condition monitoring
• Electricity markets and system economics
• New modelling and simulation approaches
• Power system and electronics education
Track 2. Renewable Energy
• Photovoltaic and solar systems
• Rooftop photovoltaic systems
• Solar water heaters
• Wind turbines and wind energy
• Hydrogen energy
• Pumped hydro energy storage
• Wave and tidal energy
• Geothermal energy
• Biomass and biogas
• Waste energy
• Energy and water nexus
• Renewable energy systems and technologies education
Track 3. Energy System Modelling and Studies
• Electrical system modelling
• Whole energy system modelling
• Carbon management
• Market design
• Economic and policy framework
• Energy cooperation opportunities
• Very high penetrations of renewable energy
• Carbon pricing and low-carbon energy policy
• Energy management and efficiency
Track 4. IT Applications in Power and Energy
• IoT enabled energy systems
• Big data applications in power and energy systems
• modern artificial intelligence applications in power and energy systems
• Signal processing applications in power and energy systems
• Cybersecurity in power and energy systems
User Name : Sara
Posted 28-06-2024 on 19:49:58 AEDT