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Full Description
Microgrids have emerged as a promising solution for accommodating the integration of renewable energy resources. But the intermittency of renewable generation is posing challenges such as voltage/frequency fluctuations, and grid stability issues in grid-connected modes. Model predictive control (MPC) is a method for controlling a process while satisfying a set of constraints. It has been in use for chemical plants and in oil refineries since the 1980s, but in recent years has been deployed for power systems and electronics as well.
This concise work for researchers, engineers and graduate students focuses on the use of MPC for distributed renewable power generation in microgrids. Fluctuating outputs from renewable energy sources and variable load demands are covered, as are control design concepts. The authors provide examples and case studies to validate the theory with both simulation and experimental results and review the shortcomings and future developments.
Chapters treat power electronic converters and control; modelling and hierarchical control of microgrids; use of MPC for PV and wind power; voltage support; parallel PV-ESS microgrids; secondary restoration capability; and tertiary power flow optimization.
Contents
Chapter 1: Introduction
Chapter 2: Power electronic converters and control
Chapter 3: Distributed renewable power generation
Chapter 4: Modeling and hierarchical control of microgrids
Chapter 5: MPC of PV-wind-storage microgrids
Chapter 6: MPC of PV-ESS MGs with voltage support
Chapter 7: MPC of parallel PV-ESS microgrids
Chapter 8: MPC of MGs with secondary restoration capability
Chapter 9: MPC of MGs with tertiary power flow optimization
