Reprint
Optimization Methods Applied to Power Systems Ⅱ
Edited by
March 2021
350 pages
- ISBN978-3-0365-0358-5 (Hardback)
- ISBN978-3-0365-0359-2 (PDF)
This book is a reprint of the Special Issue Optimization Methods Applied to Power Systems Ⅱ that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary
Electrical power systems are complex networks that include a set of electrical components that allow distributing the electricity generated in the conventional and renewable power plants to distribution systems so it can be received by final consumers (businesses and homes). In practice, power system management requires solving different design, operation, and control problems. Bearing in mind that computers are used to solve these complex optimization problems, this book includes some recent contributions to this field that cover a large variety of problems. More specifically, the book includes contributions about topics such as controllers for the frequency response of microgrids, post-contingency overflow analysis, line overloads after line and generation contingences, power quality disturbances, earthing system touch voltages, security-constrained optimal power flow, voltage regulation planning, intermittent generation in power systems, location of partial discharge source in gas-insulated switchgear, electric vehicle charging stations, optimal power flow with photovoltaic generation, hydroelectric plant location selection, cold-thermal-electric integrated energy systems, high-efficiency resonant devices for microwave power generation, security-constrained unit commitment, and economic dispatch problems.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
electricity markets; economic dispatch; optimization; maximum capacity; online operation; power system; unit commitment; circuit breaker; network modeling; optimal power flow; wind and solar energies; gas insulated switchgear; partial discharges; electromagnetic wave propagation; optimization; UHF measurement; optimization; power system; Security-Constraint Unit Commitment; sensitivity factors; user cuts; power line communication (PLC); energy storage management; vehicle to grid (V2G); smart grid; multi-objective optimization; population-based intelligent optimization algorithm; multi-behavior combination; algorithm framework; Economic load dispatch (ELD); dragonfly algorithm; metaheuristic; particle swarm optimization; unit commitment; cold-thermal-electricity integrated energy system; multi-energy complementation; feasible interval of load rate; multi-objective; multi time scales; optimize operation; earthing; earthing system; optimisation; Ansys Maxwell; sensitivity analysis; touch voltage; non-linear programming; security-constrained OPF; preventive control; corrective control; post-contingency overflow; transmission line; thermal inertia; Three-phase optimal power flow; voltage regulation; distributed generation; distribution transformer taps; linear OPF problem; shift-factors; line outage distribution factors; security-constrained; corrective formulation; preventive formulation; klystron; IOT; resotrode; efficiency; microwave; bunching; computer simulation; global optimization; power quality disturbances; classification; feature selection; swarm optimization; support vector machine; genetic algorithm; K-NN algorithm; decision tree; S-transform; optimization techniques; hydroelectric; renewable energy; MCDM; fuzzy theory; FANP; TOPSIS; quadratically constrained quadratic programming; contingency constrained optimal power flow; optimal power flow; isolated hybrid microgrid system (IHμGS); solar tower (ST); biodiesel power generator (BDPG); frequency regulation; butterfly optimization technique (BOA); microgrid energy management; renewable energy; electric vehicle; microgrid; smart grid; energy efficiency; optimization