With the population and economic growth over the decades, urban power grids are now facing much expansion and operational challenges. The power demand in large cities is increasing as the world urbanizes. On the other hand, for reducing the emission of greenhouse gas, the local fossil fuel power generation plants are replacing by town-style renewable generation or cleaner external sources. Moreover, the rapid integration of flexible loads such as electric vehicles further brings more uncertainty into the urban power system, which significantly raises the probability and high impacts of power outages. Therefore, the innovation of the technology and control strategy for urban power grid upgrading becomes essential.
The objective of this research topic is to promote theoretical and practical studies in the control and operation of the Next Generation Urban Power Grid so that improve operating flexibility and resilience, increase the friendly integration of renewable energies, and flexible loads. In addition, the application of advancing technologies and their related theory in the urban power grid need to have more discussion for potential applying in the future urban power grid upgrading. Topics of interest include, but are not limited to:
1) Flexible Operation of Hybrid AC/DC Urban Power Grids.
2) Intelligent Control for Reliable Operation in Flexible Urban Power Grids.
3) Theory and Method of Coordinated Operation in Next-Generation Urban Power Grids with Renewable Energies, Flexible Loads, and Energy Storage.
4) Measurement and Data-driven approaches to improve the operation quality of Urban Power Grids.
5) Medium and Low Voltage Level DC Technology Application in Urban Power Grids.
6) Renewable energies coordination operation in Next Generation Urban Power Grids.
With the population and economic growth over the decades, urban power grids are now facing much expansion and operational challenges. The power demand in large cities is increasing as the world urbanizes. On the other hand, for reducing the emission of greenhouse gas, the local fossil fuel power generation plants are replacing by town-style renewable generation or cleaner external sources. Moreover, the rapid integration of flexible loads such as electric vehicles further brings more uncertainty into the urban power system, which significantly raises the probability and high impacts of power outages. Therefore, the innovation of the technology and control strategy for urban power grid upgrading becomes essential.
The objective of this research topic is to promote theoretical and practical studies in the control and operation of the Next Generation Urban Power Grid so that improve operating flexibility and resilience, increase the friendly integration of renewable energies, and flexible loads. In addition, the application of advancing technologies and their related theory in the urban power grid need to have more discussion for potential applying in the future urban power grid upgrading. Topics of interest include, but are not limited to:
1) Flexible Operation of Hybrid AC/DC Urban Power Grids.
2) Intelligent Control for Reliable Operation in Flexible Urban Power Grids.
3) Theory and Method of Coordinated Operation in Next-Generation Urban Power Grids with Renewable Energies, Flexible Loads, and Energy Storage.
4) Measurement and Data-driven approaches to improve the operation quality of Urban Power Grids.
5) Medium and Low Voltage Level DC Technology Application in Urban Power Grids.
6) Renewable energies coordination operation in Next Generation Urban Power Grids.