电力系统电压稳定

定　价：¥32.00

作　者：	Carson w.taylor
出版社：	中国电力出版社
丛编项：
标　签：	电力系统

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ISBN：	9787508311609	出版时间：	2002-12-01	包装：	简裝本
开本：	268×190×16毫米	页数：	216	字数：

内容简介

　　：：本书是畅销国际电力界的经典之作，是第一部精确阐述电力系统电压稳定性问题解决方案的专著。本书描述了电力系统中输电系统、发电系统和配电，负荷系统的元件特性，同时给出了不同元件的建模方法；此外，以小型等值电力系统和大型实际电力系统为例，本书分别论述了应用计算机进行电压稳定静态和动态仿真的方法，并分析了包含HVDC联线电力系统的电压稳定性问题。：本书的独特之处是针对电压问题提出了电力系统规划和运行的导则、应用潮流和动态仿真程序分析电压稳定性的方法，以及描述了世界许多电力系统实际发生的电压失稳事件。：这本权威专著深入透彻地论述了电力系统的电压稳定性问题，可以帮助读者从事电力系统规划和运行工作。作为从事电力工作人员的必备工具，本书包括了解决电力系统电压稳定性问题所必需的知识和能力。目录：序言前言１电力系统概述２电压稳定性概念３输电系统无功补偿与控制４电力系统负荷５发电机组特性６等值系统仿真７大型电力系统电压稳定性８HVDC联线电压稳定性９电力系统规划与运行导则附录索引

作者简介

暂缺《电力系统电压稳定》作者简介

图书目录

1.General Aspects of Electric Power Systems
1.1 Brief Survey of Power System Analysis and Operation
1.2 Active Power Transmission using Elementary Models
1.3 Reactive Power Transmission using Elementary Models
1.4 Difficulties with Reactive Power Transmission
1.5 Short Circuit Capacity, Short Circuit Ratio, and Voltage
Regulation
References
2What is Voltage Stability?
2.1 Voltage Stability, Voltage Collapse, and Voltage Security
2.2 Time Frames for Voltage Instability, Mechanisms
2.3 Relation of Voltage Stability to Rotor Angle Stability
2.4 Voltage Instability in Mature Power Systems
2.5 Introduction to Voltage Stability Analysis: P-V Curves
2.6 Introduction to Voltage Stability Analysis: V-Q Curves
2.7 Graphical Explanation of Longer-Term Voltage Stability
2.8 Summary
References
3.Transmission System Reactive Power Compensationand Control
3.1 Transmission System Characteristics
3.2 Series Capacitors
3.3 Shunt Capacitor Banks and Shunt Reactors
3.4 Static Var Systems
3.5 Comparisons between Series and Shunt Compensation
3.6 Synchronous Condensers
3.7 Transmission Network LTC Transformers
References
Power System Loads
4.1 Overview of Subtransmission and Distribution Networks
4.2 Static and Dynamic Characteristics of Load Components
4.3 Reactive Compensation of Loads
4.4 LTC Transformers and Distribution Voltage Regulators
References
5.Generation Characteristics
5.1 Generator Reactive Power Capability
5.2 Generator Control and Protection
5.3 System Response to Power Impacts
5.4 Power Plant Response
5.5 Automatic Generation Control (AGC)
References
Simulation of Equivalent Systems
6.1 Equivalent System 1: Steady-State Simulation
6.2 Equivalent System 1: Dynamic Simulation
6.3 Equivalent System 2: Steady-State Simulation
6.4 Equivalent System 2: Dynamic Simulation
References
Voltage Stability of a Large System
7.1 System Description
7.2 Load Modeling and Testing
7.3 Power Flow Analysis
7.4 Dynamic Performance Including Undervoltage Load Shedding
7.5 Automatic Control of Mechanically Switched Capacitors
References
8.Voltage Stability with HVDC Links
8.1 Basic Equations for HVDC
8.2 HVDC Operation
8.3 Voltage Collapse
8.4 Voltage Stability Concepts Based on Short Circuit Ratio
8.5 Power System Dynamic Performance
References
9.Power System Planning and Operating Guidelines
9.1 Reliability Criteria
9.2 Solutions: Generation System
9.3 Solutions: Transmission System
9.4 Solutions: Distribution and Load Systems
9.5 Power System Operation
9.6 Summary: the Voltage Stability Challenge
References
Appendices:
A. Notes on the Per Unit System
B. Voltage Stability and the Power Plow Problem
B.1 The Nodal Admittance Matrix
B.2 The Newton-Raphson method
B-3 Modal Analysis of Power Flow Model
B.4 Fast Decoupled Methods
B.5 Power Flow Analysis for Voltage Stability
B.6 Voltage Stability Static Indices and Research Areas
References
C. Power Flow Simulation Methodology
D. Dynamic Analysis Methods for Longer-Term Voltage Stability
E. Equivalent System 2 Data
F. Voltage Instability Incidents