A metaheuristic is a consistent set of ideas, concepts, and operators to design a heuristic optimization algorithm, that can provide a sufficiently good solution to an optimization problem with incomplete or imperfect information. Modern and emerging power systems, with the growing complexity of distributed and intermittent generation, are an important application for such methods. This book describes the principles of solving various problems in power engineering via the application of selected metaheuristic optimization methods including genetic algorithms, particle swarm optimization, and the gravitational search algorithm. Applications covered include power flow calculation; optimal power flow in transmission networks; optimal reactive power dispatch in transmission networks; combined economic and emission dispatch; optimal power flow in distribution networks; optimal volt/var control in distribution networks; optimal placement and sizing of distributed generation in distribution networks; optimal energy and operation management of microgrids; optimal coordination of directional overcurrent relays; and steady-state analysis of self-excited induction generators.
Author(s): Jordan Radosavljević
Series: IET Energy Engineering 131
Publisher: The Institution of Engineering and Technology
Year: 2018
Language: English
Pages: xvi+517
Tags: Power resources -- Mathematical models;Energy industries -- Mathematical models;Mathematical optimization;Engineering mathematics
Chapter 1: Overview of metaheuristic optimizationChapter 2: Overview of genetic algorithmsChapter 3: Overview of particle swarm optimizationChapter 4: Overview of gravitational search algorithmChapter 5: Power-flow calculationChapter 6: Optimal power flow in transmission networksChapter 7: Optimal reactive power dispatch in transmission networksChapter 8: Combined economic and emission dispatchChapter 9: Optimal power flow in distribution networksChapter 10: Optimal Volt/Var control in distribution networksChapter 11: Optimal placement and sizing of distributed generation in distribution networksChapter 12: Optimal energy and operation management of microgridsChapter 13: Optimal coordination of directional overcurrent relaysChapter 14: Steady-state analysis of self-excited induction generators