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Weedy, Brian

Electric Power Systems

€ 81.95

The definitive textbook for Power Systems students, providing a grounding in essential power system theory while also focusing on practical power engineering applications.


Taal / Language : English

Inhoudsopgave:
Preface to First Edition ix

Preface to Third Edition xi

Preface to Third, Revised Edition xiii

Preface to Fourth Edition xv

Preface to Fifth Edition xvi

Symbols xvii

1 Introduction 1

1.1 History

1.2 Characteristics Influencing Generation and Transmission

1.3 Operation of Generators

1.4 Energy Conversion

1.5 Renewable Energy Sources

1.6 Energy Storage

1.7 Environmental Aspects of Electrical Energy

1.8 Transmission and Distribution Systems

1.9 Utilization

Problems

2 Basic Concepts

2.1 Three-Phase Systems

2.2 Three-Phase Transformers

2.3 Active and Reactive Power

2.4 The Per-Unit System

2.5 Power Transfer and Reactive Power

2.6 Harmonics in Three-Phase Systems

2.7 Useful Network Theory

Problems

3 Components of a Power System

3.1 Introduction

3.2 Synchronous Machines

3.3 Equivalent Circuit Under Balanced Short-Circuit Conditions

3.4 Synchronous Generators in Parallel

3.5 The Operation of a Generator on Infinite Busbars

3.6 Automatic Voltage Regulators (AVRs)

3.7 Lines, Cables, and Transformers

3.8 Transformers

3.9 Voltage Characteristics of Loads

Problems

4 Control of Power and Frequency

4.1 Introduction

4.2 The Turbine Governor

4.3 Control Loops

4.4 Division of Load between Generators

4.5 The Power-Frequency Characteristic of an Interconnected

System

4.6 System Connected by Lines of Relatively Small Capacity

Problems

5, Control of Voltage and Reactive Power

5.1 Introduction

5.2 The Generation and Absorption of Reactive Power

5.3 Relation Between Voltage, Power, and Reactive Power at a Node

5.4 Methods of Voltage Control:

(i) Injection of Reactive Power

5.5 Methods of Voltage Control:

(ii) Tap-Changing Transformers

5.6 Combined Use of Tap-Changing Transformers and

Reactive-Power Injection

5.7 Phase shift trasnformer

5.8 Voltage Collapse

5.9 Voltage Control in Distribution Networks

5.10 Long Lines

5.11 General System Considerations

Problems

6 Load Flows

6.1 Introduction

6.2 Circuit analysis versus load flow analysis

6.3 Gauss Siedal method

6.4 Load flows in radial and simple loop networks

6.4 Load flows in Large Systems

6.5 Example of a Complex Load Flow

6.6 Computer simulations

Problems

7 Fault Analysis

7.1 Introduction

7.2 Calculation of Three-Phase Balanced Fault Currents

7.3 Method of Symmetrical Components

7.4 Representation of Plant in the Phase-Sequence Networks

7.5 Types of Fault

7.6 Fault Levels in a Typical System

7.7 Power in Symmetrical Components

7.8 Systematic Methods for Fault Analysis in Large Networks

7.9 Neutral Grounding

7.11 Interference with Communication Circuits-Electromagnetic

Compatibility (EMC)

Problems

8 System Stability

8.1 Introduction

8.2 Equation of Motion of a Rotating Machine

8.3 Steady-State Stability

8.4 Transient Stability

8.5 Transient Stability-Consideration of Time

8.6 Transient Stability Calculations by Computer

8.7 Dynamic or small signal stability

8.8 Stability of Loads Leading to Voltage Collapse

8.9 Further Aspects

8.10 Multimachine Systems

8.11 Energy-Type Functions

8.12 Improvement of stability

Problems

9 Direct-Current Transmission

9.1 Introduction

9.2 Current Source and Voltage Source Converters

9.3 Semi-conductor Valves for High Voltage DC Converters

9.4 Current Source h.v.d.c.

9.5 Voltage Source h.v.d.c.

Problems

10 Overvoltages and Insulation Requirements

10.1 Introduction

10.2 Generation of Overvoltages

10.3 Protection Against Overvoltages

10.4 Insulation Coordination

10.5 Propagation of Surges

10.6 Determination of System Voltages Produced by Travelling

Surges 

10.7 Electromagnetic Transient Program (EMTP)

Problems

11 Substations and Protection

11.1 Introduction

11.2 Switchgear

11.3 Qualities Required of Protection

11.4 Components of Protective Schemes

11.5 Protection Systems

11.6 Distance Protection

11.7 Unit Protection Schemes

11.8 Generator Protection

11.9 Transformer Protection

11.10 Feeder Protection

11.11 System Monitoring and Control

11.12 System Security and Emergency Control

Problems

12 Fundamentals of the Economics of Operation and Planning of Electricity Systems

12.1 Economic Operation of Generation Systems

12.2 Fundamental principles of Generation System Planning

12.3 Economic Operation of Transmission Systems

12.4 Fundamental principles of Transmission System Planning

12.5 Distribution and Transmission Network security considerations

12.6 Drivers for change

Problems

Appendix I Synchronous Machine Reactances

Appendix II Typical Transformer Impedances

Appendix Ill Typical Overhead Line Parameters

Bibliography and Further Reading

Index
Extra informatie: 
Hardback
512 pagina's
Januari 2012
986 gram
243 x 173 x 32 mm
Wiley-Blackwell us

Levertijd: 5 tot 11 werkdagen