內容簡介
《電力系統分析與設計(第4版)》由於知識點全面、系統,理論與工程實際聯繫緊密,實用性強,在國內外讀者中廣受讚譽,而成為電力系統分析設計領域的重要參考資料。原書是基於美國國情而編寫的高等學校教學用書,為了使該書的內容更為適用於廣大的中國讀者,應機械工業出版社之邀,編者在承擔《電力系統分析與設計(英文改編版·原書第4版)(附盤)》中文版翻譯工作的同時,在綜合考慮知識內容的適用性、連貫性和行文簡潔的基礎上,對原書內容、結構做了一些調整,形成了本英文改編版。
改編版相對原書作了如下調整:原書每章均包括“案例分析”和正文(包含“習題”和“課程設計”)兩個部分。改編版為保證全書的完整性,保持原書正文內容不變,但從中國讀者的套用角度出發,去掉了原書各章的“案例分析”部分。同時,從刪除的“案例分析”中精選了10篇對國內讀者較具代表性和借鑑意義的論文,組織在一起新增了第14章(Extended),為開闊讀者視野提供一個視窗,以使廣大讀者了解電力系統發展現狀及未來新方向。內容涉及分散式發電、可視化電網、廣域安穩控制系統、動態安全評估等電力系統前沿領域。
改編版的出版,是將外文教材引入、消化,使之適合中國讀者的一次有益的嘗試。原書內容經過調整後將更好地體現“實用性強、套用性強”的特點。期望《電力系統分析與設計(英文改編版·原書第4版)(附盤)》能夠成為國內電力系統專業教師、學生的優秀參考教材。
目錄
出版說明
序
前言
PREFACE
List of Symbols, Units, and Notation
CHAPTER 1 Introduction
1.1 History of Electric Power Systems
1.2 Present and Future Trends
1.3 Electric Utility Industry Structure
1.4 Computers in Power System Engineering
1.5 PowerWorld Simulator
CHAPTER 2 Fundamentals
2.1 Phasors
2.2 Instantaneous Power in Single-Phase ac Circuits
2.3 Complex Power
2.4 Network Equations
2.5 Balanced Three-Phase Circuits
2.6 Power in Balanced Three-Phase Circuits
2.7 Advantages of Balanced Three-Phase versus Single-Phase Systems 51
CHAPTER 3 Power Transformers
3.1 The Ideal Transformer
3.2 Equivalent Circuits for Practical Transformers
3.3 The Per-Unit System
3.4 Three-Phase Transformer Connections and Phase Shift
3.5 Per-Unit Equivalent Circuits of Balanced Three-Phase Two-Winding Transformers
3.6 Three-Winding Transformers
3.7 Autotransformers
3.8 Transformers with Off-Nominal Turns Ratios
CHAPTER 4 Transmission Line Parameters
4.1 Transmission Line Design Considerations
4.2 Resistance
4.3 Conductance
4.4 Inductance: Solid Cylindrical Conductor
4.5 Inductance: Single-Phase Two-Wire Line and ThreePhase Three-Wire Line with Equal Phase Spacing
4.6 Inductance: Composite Conductors, Unequal Phase Spacing, Bundled Conductors
4.7 Series Impedances: Three-Phase Line with Neutral Conductors and Earth Return
4.8 Electric Field and Voltage: Solid Cylindrical Conductor
4.9 Capacitance: Single-Phase Two-Wire Line and Three-Phase Three-Wire Line with Equal Phase Spacing
4.10 Capacitance: Stranded Conductors, Unequal Phase Spacing, Bundled Conductors
4.11 Shunt Admittances: Lines with Neutral Conductors and Earth Return
4.12 Electric Field Strength at Conductor Surfaces and at Ground Level
4.13 Parallel Circuit Three-Phase Lines
CHAPTER 5 Transmission Lines: Steady-State Operation
5.1 Medium and Short Line Approximations
5.2 Transmission-Line Differential Equations
5.3 Equivalent n Circuit
5.4 Lossless Lines
5.5 Maximum Power Flow
5.6 Line Loadability
5.7 Reactive Compensation Techniques
CHAPTER 6 Power Flows
6.1 Direct Solutions to Linear Algebraic Equations: Gauss Elimination
6.2 Iterative Solutions to Linear Algebraic Equations: Jacobi and Gauss-Seidel
……
CHAPTER 7 Symmetrical Faults
CHAPTER 8 Symmetrical Components
CHAPTER 9 Unsymmetrical Faults
CHAPTER 10 System Protection
CHAPTER 11 Power System Controls
CHAPTER 12 Trasmission Lines:Transient Operation
CHAPTER 13 Transient Stability
CHAPTER 14 Extended
Appendix
