The McGraw-Hill Companies, 2010 - 736 p. ISBN:
978-0-07-162603-3.
This practical guide explains how to identify the origin of disturbances in electrical systems and analyze them for effective mitigation and control. Transients in Electrical Systems considers all transient frequencies, ranging from 0.1 Hz to 50 MHz, and discusses transmission line and cable modeling as well as frequency dependent behavior. Results of EMTP simulations, solved examples, and detailed equations are included in this comprehensive resource.
Introduction to Transients.
Transients in Lumped Circuits.
Control Systems.
Modeling of Transmission Lines and Cables for Transient Studies.
Lightning Strokes, Shielding, and Backflashovers.
Transients of Shunt Capacitor Banks.
Switching Transients and Temporary Overvoltages.
Current Interruption in AC Circuits.
Symmetrical and Unsymmetrical Short-Circuit Currents.
Transient Behavior of Synchronous Generators.
Transient Behavior of Induction and Synchronous Motors.
Power System Stability.
Excitation Systems and Power System Stabilizers.
Transient Behavior of Transformers.
Power Electronic Equipment and FACTS.
Flicker, Bus Transfer, Torsional Dynamics, and Other Transients.
Insulation Coordination.
Gas-Insulated Substations—Very Fast Transients.
Transients and Surge Protection in Low-Voltage Systems.
Surge Arresters.
Transients in Grounding Systems.
Lightning Protection of Structures.
DC Systems, Short Circuits, Distributions, and HVDC.
Smart Grids and Wind Power Generation.
This practical guide explains how to identify the origin of disturbances in electrical systems and analyze them for effective mitigation and control. Transients in Electrical Systems considers all transient frequencies, ranging from 0.1 Hz to 50 MHz, and discusses transmission line and cable modeling as well as frequency dependent behavior. Results of EMTP simulations, solved examples, and detailed equations are included in this comprehensive resource.
Introduction to Transients.
Transients in Lumped Circuits.
Control Systems.
Modeling of Transmission Lines and Cables for Transient Studies.
Lightning Strokes, Shielding, and Backflashovers.
Transients of Shunt Capacitor Banks.
Switching Transients and Temporary Overvoltages.
Current Interruption in AC Circuits.
Symmetrical and Unsymmetrical Short-Circuit Currents.
Transient Behavior of Synchronous Generators.
Transient Behavior of Induction and Synchronous Motors.
Power System Stability.
Excitation Systems and Power System Stabilizers.
Transient Behavior of Transformers.
Power Electronic Equipment and FACTS.
Flicker, Bus Transfer, Torsional Dynamics, and Other Transients.
Insulation Coordination.
Gas-Insulated Substations—Very Fast Transients.
Transients and Surge Protection in Low-Voltage Systems.
Surge Arresters.
Transients in Grounding Systems.
Lightning Protection of Structures.
DC Systems, Short Circuits, Distributions, and HVDC.
Smart Grids and Wind Power Generation.