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Electrical power systems /
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Electrical power systems / C.L. Wadhwa.
Saved in:
Bibliographic Details
Main Author:
Wadhwa, C. L.
Format:
eBook
Language:
English
Published:
Tunbridge Wells :
New Academic Science,
©2012.
Subjects:
Electric power systems.
Electric power transmission.
Electric power systems
Electric power transmission
Online Access:
Click for online access
Holdings
Description
Table of Contents
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Table of Contents:
Cover
Preface
Contents
Chapter 1. Fundamentals of Power Systems
1.1 Single-Phase Transmission
1.2 The 3-Phase Transmission
1.3 Complex Power
1.4 Load Characteristics
1.5 The Per Unit System
Chapter 2. Line Constant Calculations
2.1 Magnetic Flux Density
2.2 Inductors and Inductance
2.3 Magnetic Field Intensity Due to a Long Current Carrying Conductor
2.4 Inductance of Two-Wire (1-Ï?) Transmission line
2.5 Flux Linkages of one Conductor in a Group of Conductors
2.6 Inductance of 3-Ï? Unsymmetrically Spaced Transmission Line 2.7 Transposition of Power Lines
2.8 Composite Conductors
2.9 Inductance of Composite Conductors
2.10 Inductance of Double Circuit 3-Ï? Line
2.11 Concept of Geometric Mean Distance
2.12 Bundled Conductors
2.13 Skin and Proximity Effect
Chapter 3. Capacitance of Transmission Lines
3.1 Electric Field of an Infinite Line of Charge
3.2 Potential Difference between Two Points Due to a Line Charge
3.3 Two Infinite Lines of Charge
3.4 Capacitance of A 1-Ï? Transmission Line 3.5 Capacitance of a 3-Phase Unsymmetrically Spaced Transmission Line
3.6 Capacitance of a Double Circuit Line
3.7 Effect of Earth on the Capacitance of Conductors
Chapter 4. Performance of Lines
4.1 Representation of Lines
4.2 Short Transmission Line
4.3 Medium Length Lines
4.4 Long Transmission Lines
4.5 ABCD Constants
4.6 Ferranti-Effect
Chapter 5. High Voltage d.c Transmission
5.1 Rectification
5.2 The 3-Phase Bridge Rectifier or Graetz Circuit
5.3 Inversion
5.4 Kinds of d.c. Links 5.5 Parallel and Series Connection of Thyristors
5.6 Power Flow in HVDC Transmission System
5.7 Constant Ignition Angle β Control
5.8 Constant Extinction Angle Î? Control
5.9 Constant Current Control
5.10 Actual Control Characteristics
5.11 Frequency Control
5.12 Reactive VAr Requirements of HVDC Converters
5.13 Parallel Operation of d.c Link with an a.c Network
5.14 Ground Return
5.15 Circuit Breaking
5.16 Advantages of d.c Transmission
5.17 Disadvantages
5.18 Cables
5.19 Economic Distances for d.c TransmissionChapter 6. Corona
6.1 Critical Disruptive Voltage
6.2 Corona Loss
6.3 Line Design Based on Corona
6.4 Radio Interference
6.5 Inductive Interference between Power and Communication Lines
Chapter 7. Mechanical Design of Transmission Lines
7.1 The Catenary Curve
7.2 Sag Tension Calculations
7.3 Supports at Different Levels
7.4 Stringing Chart
7.5 Sag Template
7.6 Equivalent Span
7.7 Stringing of Conductors
7.8 Vibration and Vibration Dampers
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