Author:
Feliachi Ali,Mohammadi Farideh,Vanashi Hessam
Abstract
This paper defines an agile power system as a system in which the physical structure can change due to the connection/disconnection of subsystems, such as microgrids. These systems pose serious difficulties in their operations and control. Some of these challenges are reviewed. One operational issue is the energy balancing or the load frequency control problem when microgrids with a low inertia are connected to the main grid. The paper identifies the need for new rules of operation. Furthermore, in this paper, decentralized and data-driven voltage control designs are proposed, compared and illustrated on a microgrid. They take into consideration the structure and the usage of the large amount of data provided by the proliferation of sensors.
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction
Reference27 articles.
1. EPRI White Paper (2016). Electric Power System Flexibility: Challenges and Opportunities, Electric Power Research Institute.
2. Load Frequency Control in Variable Inertia Systems;Syed;IEEE Trans. Power Syst.,2020
3. A Road Test for Vehicle-to-Grid Tech;Michael;IEEE Spectrum,2022
4. Salem, A. (2015). Internet of Things in Smart Grids, West Virginia University. MS Project.
5. Energy trading for fun and profit buy your neighbor's rooftop solar power or sell your own-it’ll all be on a blockchain;Peck;IEEE Spectrum,2017