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Scheduling and Operation of Virtual Power Plants: Technical Challenges and Electricity Markets provides a multidisciplinary perspective on recent advances in VPPs, ranging from required infrastructures and planning to operation and control. The work details the required components in a virtual power plant, including smartness of power system, instrument and information and communication technologies (ICTs), measurement units, and distributed energy sources. Contributors assess the proposed benefits of virtual power plant in solving problems of distributed energy sources in integrating the small, distributed and intermittent output of these units. In addition, they investigate the likely technical challenges regarding control and interaction with other entities.
Finally, the work considers the role of VPPs in electricity markets, showing how distributed energy resources and demand response providers can integrate their resources through virtual power plant concepts to effectively participate in electricity markets to solve the issues of small capacity and intermittency. The work is suitable for experienced engineers, researchers, managers and policymakers interested in using VPPs in future smart grids.
List of contents
1. Introduction and history of virtual power pants
2. Basics of virtual power plants
3. Infrastructures of virtual power plants
4. Energy and capacity management of distribution network
5. Demand side management
6. The role of virtual power plants in electricity markets
7. Transactive Energy
8. Reliability and security analysis of VPPs
9. The role of VPP in reducing stability problems
10. Uncertainties modeling of renewable energy resources
11. Carbon emission trading and the potential of VPPs in emission reduction
12. Energy forecast strategy for a virtual power plant including renewable energy resources
13. Future trend of virtual power plants
About the author
Ali Zanganeh is Associate Professor of Electrical Engineering at Shahid Rajaee Teacher Training University, Lavizan, Tehran. He received his Ph.D. degree in electrical engineering from Iran University of Science and Technology (IUST) in 2010. His research interests include demand side management, smart grid, resiliency, distributed generation and optimization in power systems.Moein Moeini-Aghtaie is Assistant Professor of Electical Engineering at Sharif University of Technology, Tehran, Iran. He received the M.Sc. and Ph.D. degrees from the Sharif University of Technology, Tehran, Iran, in 2010 and 2014, respectively, both in electrical engineering. His current research interests include reliability and resilience studies of modern distribution systems, especially in the multi-carrier energy environment, and charging management of plug-in hybrid electric vehicles.
