前言Chapter 1Power Generation System1.1Introduction1.2Generating Electric Currents1.3Electric Power Station1.3.1Steam Generator1.3.2Other Turbine Generators1.4Synchronous Generator Voltage Control1.4.1Excitation Systems1.4.2Types of Excitation Systems1.4.3Modelling of Excitation System Components1.5Motor Applications in Power Plants1.5.1Categories of Electrical Motors1.5.2Speed Control of DC Motors1.5.3Speed Control of AC MotorsChapter 2Transmission System2.1Introduction2.2Transmission Lines2.2.1Overhead Lines2.2.2Underground Cables2.3Transformers2.3.1Introduction2.3.2Representation of Two-Winding Transformers2.3.3Representation of Three-Winding Transformers2.3.4Phase-Shifting Transformers2.4Extra High Voltage(EHV)Transmission2.4.1Introduction2.4.2EHV Transmission in China2.4.3Future of EHV Transmission Grid in China2.4.4EHV Grid Effects on the Electricity MarketsChapter 3Distribution Network3.1Introduction3.2Distribution Systems Structure3.2.1Primary Distribution Systems3.2.2Consumer Distribution Systems3.2.3Commercial and Industrial Installations3.2.4Consumer Loop System3.2.5Secondary High-Voltage Distribution3.2.6Secondary Ties Loop System3.3Load in Distribution System3.3.1Static Load Models3.3.2Dynamic Load Models3.4Distribution Network Automation System3.4.1Introduction of the Distribution Network Automation System3.4.2Control Type Selection for Distribution Network Automation3.4.3Switch Type and Control Method in Distribution Network3.4.4Operation of Tie Switch in Distribution Network3.4.5Components Selections in DAS3.4.6Simplified Supervising System in DASCONTENTS电气工程及其自动化专业英语Chapter 4Measurement and Control in Power System4.1Introduction4.2SCADA System in Power System4.2.1SCADA Overview4.2.2SCADA Architectures4.3Power System Control4.3.1Key Concepts in Protection and Control4.3.2Power Generation Control4.3.3Power Substations Control4.3.4Electric Utility Control Center4.3.5The Future of The Electric Utility Control CenterChapter 5High Voltage Direct Current(HVDC)Transmission5.1Introduction5.2Converters in HVDC5.2.1Solid-State Power Device in HVDC5.2.2Rectifying Systems in HVDC Systems5.2.3Inverter in HVDC5.3Application of HVDC5.3.1Corona Discharge5.3.2AC Network Interconnections5.3.3Renewable Electricity Superhighways5.3.4Voltage Sourced Converters(VSC)5.4HVDC in ChinaChapter 6Flexible AC Transmission(FACT)Systems6.1Introduction6.2Static Var Compensator (SVC)6.2.1Introduction6.2.2Principles of Var Compensation6.2.3AC Controller-Based Structures6.2.4Active Compensator Topologies6.3Uniform Power Flow Controller (UPFC)6.3.1Introduction6.3.2Basic Structure of the Unified Power Flow Controller6.4Bridge-Type Fault Current Controller (FCC)6.4.1Introduction6.4.2Bridge-Type Fault Current Controller with a Bias Power SupplyChapter 7Renewable Energy and Distributed Generation7.1Introduction7.2Wind Power7.2.1Wind Turbine Basics7.2.2A Walk Around the Wind Turbine Control Loops7.2.3Modeling and Control of Wind Farms7.3Solar Power7.3.1Solar Cells7.3.2Integrated Solar Home System7.3.3PV Utilization in China7.3.4Wind-Solar Hybrid System7.4Nuclear Power and Other7.4.1How Nuclear Power Works7.4.2Nuclear Fission: The Heart of the Reactor7.4.3Pros and Cons of Nuclear PowerChapter 8Smart Power Grid8.1Introduction8.2Smart Substation8.2.1Introduction8.2.2Primary Equipment Design8.2.3Secondary Equipment Design8.2.4Benefits of the New Substation Design8.2.5Future Substation Design8.3The Smart Grid8.3.1Introduction8.3.2Smart Grid Definitions8.3.3Smart Grid Components8.3.4Smart Grid in ChinaChapter 9Wide Area Measurement Protection System9.1Introduction9.2Phasor Measurement Unit (PMU) and Its Application9.2.1Defination of Phasor9.2.2Sources of Synchronization9.2.3Phasor Measuring Units9.2.4PMU Potential Applications9.3Wide-Area Protection System9.3.1Introduction9.3.2Requirements on Protec