电气工程及其自动化专业英语

本书从适应高等院校电气工程及其自动化专业英语的教学需求出发，兼顾内容的实用性和易用性，基本涵盖了电气工程及其自动化专业英语的相关知识。本书共11章，内容分为三大部分。第一部分介绍由发电系统、输电系统、配电系统构成的电力系统一次系统，以及负责电力系统中测量、控制、保护的二次系统的相关内容；第二部分介绍一些目前比较热门的研究领域，包括运用在长距离、大容量输电情况下的，以电力电子技术为理论基础的高压直流输电技术和柔性交流输电技术，利用新能源发电的分布式发电系统，智能电网的组成及相关技术等；第三部分介绍电力系统及组成系统的电力设备的模拟仿真软件。本书选材新颖，内容丰富，知识性强，注释详尽，语言精练，是高等院校电气工程及其自动化专业英语的适用教材，也可作为其他相近专业的参考用书，还可供有关技术人员选用。

前言 Chapter 1Power Generation System 1.1Introduction 1.2Generating Electric Currents 1.3Electric Power Station 1.3.1Steam Generator 1.3.2Other Turbine Generators 1.4Synchronous Generator Voltage Control 1.4.1Excitation Systems 1.4.2Types of Excitation Systems 1.4.3Modelling of Excitation System Components 1.5Motor Applications in Power Plants 1.5.1Categories of Electrical Motors 1.5.2Speed Control of DC Motors 1.5.3Speed Control of AC Motors Chapter 2Transmission System 2.1Introduction 2.2Transmission Lines 2.2.1Overhead Lines 2.2.2Underground Cables 2.3Transformers 2.3.1Introduction 2.3.2Representation of Two-Winding Transformers 2.3.3Representation of Three-Winding Transformers 2.3.4Phase-Shifting Transformers 2.4Extra High Voltage(EHV)Transmission 2.4.1Introduction 2.4.2EHV Transmission in China 2.4.3Future of EHV Transmission Grid in China 2.4.4EHV Grid Effects on the Electricity Markets Chapter 3Distribution Network 3.1Introduction 3.2Distribution Systems Structure 3.2.1Primary Distribution Systems 3.2.2Consumer Distribution Systems 3.2.3Commercial and Industrial Installations 3.2.4Consumer Loop System 3.2.5Secondary High-Voltage Distribution 3.2.6Secondary Ties Loop System 3.3Load in Distribution System 3.3.1Static Load Models 3.3.2Dynamic Load Models 3.4Distribution Network Automation System 3.4.1Introduction of the Distribution Network Automation System 3.4.2Control Type Selection for Distribution Network Automation 3.4.3Switch Type and Control Method in Distribution Network 3.4.4Operation of Tie Switch in Distribution Network 3.4.5Components Selections in DAS 3.4.6Simplified Supervising System in DAS CONTENTS电气工程及其自动化专业英语Chapter 4Measurement and Control in Power System 4.1Introduction 4.2SCADA System in Power System 4.2.1SCADA Overview 4.2.2SCADA Architectures 4.3Power System Control 4.3.1Key Concepts in Protection and Control 4.3.2Power Generation Control 4.3.3Power Substations Control 4.3.4Electric Utility Control Center 4.3.5The Future of The Electric Utility Control Center Chapter 5High Voltage Direct Current(HVDC)Transmission 5.1Introduction 5.2Converters in HVDC 5.2.1Solid-State Power Device in HVDC 5.2.2Rectifying Systems in HVDC Systems 5.2.3Inverter in HVDC 5.3Application of HVDC 5.3.1Corona Discharge 5.3.2AC Network Interconnections 5.3.3Renewable Electricity Superhighways 5.3.4Voltage Sourced Converters(VSC) 5.4HVDC in China Chapter 6Flexible AC Transmission(FACT)Systems 6.1Introduction 6.2Static Var Compensator (SVC) 6.2.1Introduction 6.2.2Principles of Var Compensation 6.2.3AC Controller-Based Structures 6.2.4Active Compensator Topologies 6.3Uniform Power Flow Controller (UPFC) 6.3.1Introduction 6.3.2Basic Structure of the Unified Power Flow Controller 6.4Bridge-Type Fault Current Controller (FCC) 6.4.1Introduction 6.4.2Bridge-Type Fault Current Controller with a Bias Power Supply Chapter 7Renewable Energy and Distributed Generation 7.1Introduction 7.2Wind Power 7.2.1Wind Turbine Basics 7.2.2A Walk Around the Wind Turbine Control Loops 7.2.3Modeling and Control of Wind Farms 7.3Solar Power 7.3.1Solar Cells 7.3.2Integrated Solar Home System 7.3.3PV Utilization in China 7.3.4Wind-Solar Hybrid System 7.4Nuclear Power and Other 7.4.1How Nuclear Power Works 7.4.2Nuclear Fission: The Heart of the Reactor 7.4.3Pros and Cons of Nuclear Power Chapter 8Smart Power Grid 8.1Introduction 8.2Smart Substation 8.2.1Introduction 8.2.2Primary Equipment Design 8.2.3Secondary Equipment Design 8.2.4Benefits of the New Substation Design 8.2.5Future Substation Design 8.3The Smart Grid 8.3.1Introduction 8.3.2Smart Grid Definitions 8.3.3Smart Grid Components 8.3.4Smart Grid in China Chapter 9Wide Area Measurement Protection System 9.1Introduction 9.2Phasor Measurement Unit (PMU) and Its Application 9.2.1Defination of Phasor 9.2.2Sources of Synchronization 9.2.3Phasor Measuring Units 9.2.4PMU Potential Applications 9.3Wide-Area Protection System 9.3.1Introduction 9.3.2Requirements on Protection Compared to SCADA/EMS 9.3.3Architectures of Wide-Area Protection System 9.3.4Discussion Chapter 10Electronic Devices Simulation 10.1Introduction 10.2Simulation Program with Integrated Circuit Emphasis (PSPICE) 10.2.1Introduction of PSPICE Fundamentals 10.2.2Element Statements 10.2.3Design Manager 10.2.4Device Model 10.2.5Library File 10.3MATLAB/Simulink 10.3.1Introduction of MATLAB 10.3.2SimPowerSystems Block Libraries Chapter 11Power System Simulation Softwares 11.1Introduction 11.2Offline Simulation Softwares 11.2.1Power System Simulation for Engineering (PSS/E) 11.2.2PowerFactory (DIgSILENT) 11.2.3Power Systems CAD (PSCAD) 11.2.4Power System Analysis Toolbox (PSAT) 11.3Real-Time Digital Simulator (RTDS ) 11.3.1Introduction 11.3.2RTDS Hardware 11.3.3RTDS Software Reference