Electrical Design of Overhead Power Transmission Lines
Series: ELECTRONICS;
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Product details:
- Publisher McGraw Hill
- Date of Publication 16 October 2012
- ISBN 9780071771917
- Binding Hardback
- No. of pages560 pages
- Size 233x162x35 mm
- Weight 905 g
- Language English 0
Categories
Short description:
This valuable guide details all aspects of design of overhead power transmission lines—from matrix methods and symmetrical components to transient thermal rating--aimed at preparing users for actual transmission line layouts.
MoreLong description:
Complete coverage of power line design and implementation
"This text provides the essential fundamentals of transmission line design. It is a good blend of fundamental theory with practical design guidelines for overhead transmission lines, providing the basic groundwork for students as well as practicing power engineers, with material generally not found in one convenient book." IEEE Electrical Insultation Magazine
Electrical Design of Overhead Power Transmission Lines discusses everything electrical engineering students and practicing engineers need to know to effectively design overhead power lines. Cowritten by experts in power engineering, this detailed guide addresses component selection and design, current IEEE standards, load-flow analysis, power system stability, statistical risk management of weather-related overhead line failures, insulation, thermal rating, and other essential topics. Clear learning objectives and worked examples that apply theoretical results to real-world problems are included in this practical resource.
Electrical Design of Overhead Power Transmission Lines covers:
- AC circuits and sequence circuits of power networks
- Matrix methods in AC power system analysis
- Overhead transmission line parameters
- Modeling of transmission lines
- AC power-flow analysis using iterative methods
- Symmetrical and unsymmetrical faults
- Control of voltage and power flow
- Stability in AC networks
- High-voltage direct current (HVDC) transmission
- Corona and electric field effects of transmission lines
- Lightning performance of transmission lines
- Coordination of transmission line insulation
- Ampacity of overhead line conductors
Complete coverage of power line design and implementation
"This text provides the essential fundamentals of transmission line design. It is a good blend of fundamental theory with practical design guidelines for overhead transmission lines, providing the basic groundwork for students as well as practicing power engineers, with material generally not found in one convenient book." IEEE Electrical Insultation Magazine
Electrical Design of Overhead Power Transmission Lines discusses everything electrical engineering students and practicing engineers need to know to effectively design overhead power lines. Cowritten by experts in power engineering, this detailed guide addresses component selection and design, current IEEE standards, load-flow analysis, power system stability, statistical risk management of weather-related overhead line failures, insulation, thermal rating, and other essential topics. Clear learning objectives and worked examples that apply theoretical results to real-world problems are included in this practical resource.
Electrical Design of Overhead Power Transmission Lines covers:
- AC circuits and sequence circuits of power networks
- Matrix methods in AC power system analysis
- Overhead transmission line parameters
- Modeling of transmission lines
- AC power-flow analysis using iterative methods
- Symmetrical and unsymmetrical faults
- Control of voltage and power flow
- Stability in AC networks
- High-voltage direct current (HVDC) transmission
- Corona and electric field effects of transmission lines
- Lightning performance of transmission lines
- Coordination of transmission line insulation
- Ampacity of overhead line conductors
Table of Contents:
Ch. 1. Introduction
Ch. 2. AC Circuits and Sequence Circuits of Power Networks Chapter
Ch. 3. Matrix Methods in AC Power System Analysis
Ch. 4. Overhead Transmission Line Parameters
Ch. 5. Modeling of Transmission Lines
Ch. 6. AC Power-Flow Analysis Using Iterative Methods
Ch. 7. Symmetrical Faults
Ch. 8. Unsymmetrical Faults Control
Ch. 9. Control of Voltage and Power Flow
Ch. 10. Stability in AC Networks
Ch. 11. HVD C Transmission Systems and FACTS Devices
Ch. 12. Corona and Electric Field Effects of Transmission Lines
Ch. 13. Lightning Performance of Transmission Lines
Ch. 14. Coordination of Transmission-Line Insulation
Ch. 15. Ampacity of Overhead Line Conductors
References
List of Symbols and Abbreviations
Index
