Power System Transients
Theory and Applications
1st Edition
Published on 10. October 2013
Book
Hardback
516 pages
978-1-4665-7784-8 (ISBN)
Description
As a transient phenomenon can shut down a building or an entire city, transient analysis is crucial to managing and designing electrical systems. Power System Transients: Theory and Applications discusses the basic theory of transient phenomena-including lumped- and distributed-parameter circuit theories-and provides a physical interpretation of the phenomena. It covers novel and topical questions of power system transients and associated overvoltages.
Using formulas simple enough to be applied using a pocket calculator, the book presents analytical methods for transient analysis. It examines the theory of numerical simulation methods such as the EMTP (circuit-theory based approach) and numerical electromagnetic analysis. The book highlights transients in clean or sustainable energy systems such as smart grids and wind farms, since they require a different approach than overhead lines and cables. Simulation examples provided include arcing horn flashover, a transient in a grounding electrode, and an induced voltage from a lightning channel.
Using formulas simple enough to be applied using a pocket calculator, the book presents analytical methods for transient analysis. It examines the theory of numerical simulation methods such as the EMTP (circuit-theory based approach) and numerical electromagnetic analysis. The book highlights transients in clean or sustainable energy systems such as smart grids and wind farms, since they require a different approach than overhead lines and cables. Simulation examples provided include arcing horn flashover, a transient in a grounding electrode, and an induced voltage from a lightning channel.
More details
Language
English
Place of publication
Bosa Roca
United States
Publishing group
Taylor & Francis Inc
Target group
College/higher education
Illustrations
265 s/w Abbildungen, 63 s/w Tabellen
63 Tables, black and white; 265 Illustrations, black and white
Dimensions
Height: 235 mm
Width: 156 mm
Weight
862 gr
ISBN-13
978-1-4665-7784-8 (9781466577848)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
Akihiro Ametani | Naoto Nagaoka | Yoshihiro Baba
Power System Transients
Theory and Applications, Second Edition
Book
11/2016
2nd Edition
CRC Press
€327.13
Shipment within 15-20 days
Additional editions
E-Book
10/2013
CRC Press
€51.49
Available for download
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Content
Theory of Distributed-Parameter Circuits and the Impedance/Admittance Formulas
Impedance and Admittance Formula
Basic Theory of Distributed-Parameter Circuit
Multiconductor System
Frequency-Dependent Effect
Traveling Wave
Non-uniform Conductors
Introduction of EMTP
Solutions of the Problems
Transients on Overhead Lines
Switching Surge on Overhead Line
Fault Surge
Lightning Surge
Theoretical Analysis of Transients: Hand Calculations
Frequency-Domain Method of Transient Simulations
Transients on Cable Systems
Impedance and Admittance of Cable Systems
Wave Propagation and Overvoltages
Studies on Recent and Planned EHV AC Cable Projects
Cable System Design and Equipment Selection
EMTP Simulation Test Cases
Transient and Dynamic Characteristics of New Energy Systems
Wind Farm
Power-Electronics Simulation by EMTP
Voltage Regulation Equipment Using Battery in a DC Railway System
Concluding Remarks
Numerical Electromagnetic Analysis Methods and Their Applications to Transient Analyses
Fundamentals
Applications
Electromagnetic Disturbances in Power Systems and Customers
Disturbances in Power Stations and Substations
Disturbances in Customers and Home Appliances
Analytical Method of Solving Induced Voltages and Currents
Problems and Application Limits of Numerical Simulations
Problems of Existing Impedance Formulas Used in Circuit-Theory-Based Approaches
Existing Problems in Circuit-Theory-Based Numerical Analysis
Numerical Electromagnetic Analysis for Power System Transients
Impedance and Admittance Formula
Basic Theory of Distributed-Parameter Circuit
Multiconductor System
Frequency-Dependent Effect
Traveling Wave
Non-uniform Conductors
Introduction of EMTP
Solutions of the Problems
Transients on Overhead Lines
Switching Surge on Overhead Line
Fault Surge
Lightning Surge
Theoretical Analysis of Transients: Hand Calculations
Frequency-Domain Method of Transient Simulations
Transients on Cable Systems
Impedance and Admittance of Cable Systems
Wave Propagation and Overvoltages
Studies on Recent and Planned EHV AC Cable Projects
Cable System Design and Equipment Selection
EMTP Simulation Test Cases
Transient and Dynamic Characteristics of New Energy Systems
Wind Farm
Power-Electronics Simulation by EMTP
Voltage Regulation Equipment Using Battery in a DC Railway System
Concluding Remarks
Numerical Electromagnetic Analysis Methods and Their Applications to Transient Analyses
Fundamentals
Applications
Electromagnetic Disturbances in Power Systems and Customers
Disturbances in Power Stations and Substations
Disturbances in Customers and Home Appliances
Analytical Method of Solving Induced Voltages and Currents
Problems and Application Limits of Numerical Simulations
Problems of Existing Impedance Formulas Used in Circuit-Theory-Based Approaches
Existing Problems in Circuit-Theory-Based Numerical Analysis
Numerical Electromagnetic Analysis for Power System Transients