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电力系统电压稳定性分析(英文版)Voltage Stability Analysis of Power System


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电力系统电压稳定性分析(英文版)Voltage Stability Analysis of Power System
  • 书号:9787030681058
    作者:汤涌
  • 外文书名:
  • 装帧:圆脊精装
    开本:B5
  • 页数:385
    字数:
    语种:en
  • 出版社:科学出版社
    出版时间:2021-06-01
  • 所属分类:
  • 定价: ¥198.00元
    售价: ¥156.42元
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本书全面阐述了电力系统电压稳定领域的理论和方法,共分为8章。第1章介绍了电力系统的基本理论以及电力系统稳定性的基本概念及分类;第2章讨论了电压稳定性的基本概念,包括电压稳定的机理、暂态、中长期电压稳定的影响因素;第3章介绍了电压稳定分析中重要的电力系统的元件特性和模型;第4~6章分别讨论了静态、暂态以及中长期电压稳定分析的理论和方法;第7章介绍了提高电压稳定性的措施;第8章介绍了两个电压稳定工程应用分析实例。
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目录

  • Contents
    1 Introduction 1
    1.1 Development of the Power System 1
    1.2 Operation and Control 3
    1.2.1 Electric System Operation 3
    1.2.2 Power System Security and Stability Control 5
    1.3 Definition and Classification of the Power System Stability 7
    1.3.1 Overview 7
    1.3.2 Definition and Classification of Electric Power System Stability in China 8
    1.3.3 Definition and Classification of Power System Stability in IEEE/CIGRE 10
    1.3.4 Comparative Analysis of Definitions and Classifications at Home and Abroad 12
    1.3.5 Definition and Classification of Power System Stability 16
    References 19
    2 Introduction to Voltage Stability 21
    2.1 History and Current Situation of Voltage Stability Research 21
    2.2 Voltage Instability Accident and Its Characteristics 22
    2.2.1 Overview of Typical Voltage Collapse Accidents 24
    2.2.2 Characteristics of Voltage Instability 30
    2.3 Mechanism of Voltage Stability 31
    2.3.1 Voltage Stability of Simple Pure Resistor Element Circuits 31
    2.3.2 Mathematical Description of Voltage Stability of Simple Pure Resistor Element Circuits 33
    2.3.3 Voltage Stability of AC Circuits 35
    2.4 Factors Affecting Voltage Stability 37
    2.4.1 Transient Voltage Stability 37
    2.4.2 Medium and Long-Term Voltage Stability 43
    References 44
    3 Characteristics and ModeIs of Power System Elements 47
    3.1 Synchronous Generator and Its Control System 47
    3.1.1 Synchronous GeneraωIr 47
    3.1.2 Excitation Control System of Synchronous Generators 60
    3.1.3 Power System Stabilizer 68
    3.1.4 PrimeMovler Govemor 69
    3.2 Load 71
    3.2.1 Composition oflρad a 71
    3.2.2 Static Load Characteristics 71
    3.2.3 Dynamic Characteristics of Loads 73
    3.2.4 Mathematica1 Desαiption of the Load 76
    3.3 Reactive Compensation Element 81
    3.3.1 Series Capacitor 81
    3.3.2 Shunt Capacitor and Shunt Reactor 83
    3.3.3 Static Var Compensator 85
    3.3.4 Static Compensator 87
    3.3.5 Thyristor Controlled Series Capacitor 88
    3.3.6 Static Synchronous Series Compensator 91
    3.3.7 Unified Power Flow Controller 95
    3.3.8 Controllable Shunt Reactor 100
    3.3.9 Synchronous Condenser 103
    3.4 OLTC 104
    3.4.1 Characteristics of OLTC 104
    3.4.2 Model of OLTC 104
    3.5 HVDC Transmission System 107
    3.5.1 Reactive Power Characteristics of Converter 107
    3.5.2 Reactive Power Compensationαl.aracteristics of Converter Stations 109
    3.5.3 characteristics of Fault DC System 111
    3.5.4 Model of DC Transmission System 113
    3.6 Power System of Power Plant 116
    3.6.1 Power System Model of Thermal Power Plant 116
    3.6.2 Dynamic Model of Hydropower Plant 121
    3.6.3 Dynamic Model of Pressurized Water Reactor Nuclear Power Plant 123
    3.7 Auto Generation Control 124
    3.7.1 AGC Control Mode 124
    3.7.2 AGC Model 126
    References 129
    4 Static Analysis of Voltage Stability 131
    4.1 Basic Principle of Static Analysis of Voltage Stability 131
    4.2 Research on Transmission Capability of Power Systems 132
    4.2.1 PV Curve 133
    4.2.2 VQ Curve 136
    4.2.3 Solution of the CurveContinued Power Flow 137
    4.3 Static Analysis Method for Voltage Stability 142
    4.3.1 Nonlinear Programming Method 143
    4.3.2 Singular Value Decomposition Method 145
    4.3.3 Eigenvalue Analysis 151
    4.3.4 Sensitivity Analysis 154
    4.3.5 Bifurcation Analysis 156
    4.4 Static Analysis Index for Voltage Stability 161
    4.4.1 Sensitivity Index 161
    4.4.2 Singular Value/Eigenvalue Index 163
    4.4.3 Index Based on the Power Flow Solution 163
    4.4.4 Local Index 167
    4.4.5 Impedance Modulus Index 168
    4.4.6 Energy Function Index 169
    4.4.7 Second-Order Index 170
    4.5 Engineering Application 175
    4.5.1 Engineering Indexes in China 175
    4.5.2 Engineering Indexes of Other Countries 186
    References 189
    5 Transient (Short-Tenn) Voltage Stability 193
    5.1 Ana1ysis Method of Transient Voltage Stability 193
    5.1.1 Time-Domain Simulation Method 193
    5.1.2 Energy Function Method 200
    5.1.3 Nonlinear Dynanùc Method 205
    5.2 Criterion for Transient Voltage Stability 211
    5.2.1 Engineering Experience Criteria 211
    5.2.2 Theoretica1 criteria 213
    5.3 Distinguishment Between Voltage Stability and Rotor Angle Stability 250
    5.3.1 Engineering Empirical Approach 250
    5.3.2 Small Disturbance Analysis Method 251
    5.3.3 Bifurcation Analysis 253
    5.3.4 Energy Function Method 254
    5.3.5 Thevenin Equivalent Parameter Tracking Algorithm 255
    5.3.6 Combination of Singularity Induced Bifurcation (SIB) Theory and Energy Function Method 259
    References 266
    6 Medium and Long-Term Voltage Stability 269
    6.1 Multi-time Scale Full Dynamic Simulation of Power System 269
    6.1.1 Study Range 269
    6.1.2 Simulation Model 270
    6.1.3 Simulation Method 271
    6.2 Relationship Between Medium and Long-Term Voltage Stability and Static and Transient Voltage Stability 277
    6.2.1 Relationship Between Medium and Long-Term Voltage Stability and Static Voltage Stability 277
    6.2.2 Relationship Between Medium and Long-Term Voltage Stability and Transient Voltage Stability 278
    6.3 Analysis of Medium and Long-Term Voltage Stability Scenarios 279
    6.3.1 Overexcitation Limit of Generators 279
    6.3.2 On-Load Voltage Regulating Transformer 280
    6.3.3 Constant Temperature Load 280
    6.3.4 Continuous Increase of the Load 281
    6.4 Example of Medium and Long-Term Voltage Stability Analysis 282
    References 284
    7 Technical Measures to Improve Voltage Stability 287
    7.1 Classification of Measures for Improving Voltage Stability 288
    7.2 Generator Control 291
    7.2.1 Reactive Power Reserve Capacity of Generator 291
    7.2.2 HV Side Voltage Control of Generator 292
    7.2.3 Generator Output Control 294
    7.3 Reactive Power Compensation for Transmission Systems 295
    7.4 Load Control 300
    7.4.1 Current Situation Analysis of Under-Voltage Load Shedding 300
    7.4.2 Configuration Method of Under-Voltage Load Shedding Measures 305
    7.5 HVDC Regulation 309
    7.6 Multi-level Voltage Control 309
    References 313
    8 Examples of Voltage Stability Analysis 315
    8.1 Case I: Power Grid Voltage Stability Analysis and Research of Fujian 315
    8.1.1 Main Contents of the Research 316
    8.1.2 Research Conditions and Calculation Principles 317
    8.1.3 Computational Tool and Method 318
    8.1.4 Analysis of Voltage and Existing Reactive Condition for Fujian Power Grid 319
    8.1.5 Reactive Power Balance Analysis of Fujian Power Grid 321
    8.1.6 Research on Static Voltage Stability of Fujian Power Grid in Peak Load Mode in 2005 325
    8.1.7 Research on Transient Voltage Stability in Fault Disturbance Mode 327
    8.1.8 Full Dynamic Simulation 333
    8.1.9 Comprehensive Measures to Improve Voltage Stability of Fujian Power Grid 337
    8.1.10 Conclusion .. 348
    8.2 Case II: Study and Comprehensive Evaluation on Voltage Stability of Chongqing Power Grid 350
    8.2.1 Conditions and Principles 350
    8.2.2 Analysis on Voltage and Reactive Power Balance of Chongqing Power Grid in Basic Operation Mode in 2008 352
    8.2.3 Research on Static Voltage Stability of Chongqing Power Grid 360
    8.2.4 Study on Transient Voltage Stability of Chongqing Power Grid in Basic Operation Mode in 2008 362
    8.2.5 Simulation Study on Medium and Long-Term Voltage Stability of Chongqing Power Grid 373
    8.2.6 Conclusions and Recommendations 383
    References 385
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