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Power system dynamics and stability : with synchrophasor measurement and power system toolbox / Peter W Sauer, M.A Pai, University of Illinois at Urbana-Champaign, United States, Joe H. Chow, Rensselaer Polytechnic Institute, Troy, New York, United States

By: Contributor(s): Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Publisher: Hoboken, NJ, USA : Wiley, 2017Edition: Second editionDescription: 1 Online-Ressource (1 online resource)ISBN:
  • 9781119355748
  • 9781119355793
  • 9781119355755
Subject(s): Additional physical formats: 9781119355779 | Erscheint auch als: Power system dynamics and stability. Druck-Ausgabe Second edition. [Piscataway, NJ] : IEEE Press, 2018. xv, 358 SeitenDDC classification:
  • 621.31
RVK: RVK: ZN 8520LOC classification:
  • TK1010
Online resources: Summary: 3.6 Single-Machine Steady State3.7 Operational Impedances and Test Data; 3.8 Problems; 4 Synchronous Machine Control Models; 4.1 Voltage and Speed Control Overview; 4.2 Exciter Models; 4.3 Voltage Regulator Models; 4.4 Turbine Models; 4.4.1 Hydroturbines; 4.4.2 Steam Turbines; 4.5 Speed Governor Models; 4.6 Problems; 5 Single-Machine Dynamic Models; 5.1 Terminal Constraints; 5.2 The Multi-Time-Scale Model; 5.3 Elimination of Stator/Network Transients; 5.4 The Two-Axis Model; 5.5 The One-Axis (Flux-Decay) Model; 5.6 The Classical Model; 5.7 Damping TorquesSummary: 5.8 Single-Machine Infinite-Bus System5.9 Synchronous Machine Saturation; 5.10 Problems; 6 Multimachine Dynamic Models; 6.1 The Synchronously Rotating Reference Frame; 6.2 Network and R-L Load Constraints; 6.3 Elimination of Stator/Network Transients; 6.3.1 Generalization of Network and Load Dynamic Models; 6.3.2 The Special Case of "Impedance Loads"; 6.4 Multimachine Two-Axis Model; 6.4.1 The Special Case of "Impedance Loads"; 6.5 Multimachine Flux-Decay Model; 6.5.1 The Special Case of "Impedance Loads"; 6.6 Multimachine Classical Model; 6.6.1 The Special Case of "Impedance LoadsSummary: 6.7 Multimachine Damping Torques6.8 Multimachine Models with Saturation; 6.8.1 The Multimachine Two-Axis Model with Synchronous Machine Saturation; 6.8.2 The Multimachine Flux-Decay Model with Synchronous Machine Saturation; 6.9 Frequency During Transients; 6.10 Angle References and an Infinite Bus; 6.11 Automatic Generation Control (AGC); 7 Multimachine Simulation; 7.1 Differential-Algebraic Model; 7.1.1 Generator Buses; 7.1.2 Load Buses; 7.2 Stator Algebraic Equations; 7.2.1 Polar Form; 7.2.2 Rectangular Form; 7.2.3 Alternate Form of Stator Algebraic Equations; 7.3 Network EquationsSummary: 7.3.1 Power-Balance Form7.3.2 Real Power Equations; 7.3.3 Reactive Power Equations; 7.3.4 Current-Balance Form; 7.4 Industry Model; 7.5 Simplification of the Two-Axis Model; 7.5.1 Simplification #1 (Neglecting Transient Saliency in the Synchronous Machine); 7.5.2 Simplification #2 (Constant Impedance Load in the Transmission System); 7.6 Initial Conditions (Full Model); 7.6.1 Load-Flow Formulation; 7.6.2 Standard Load Flow; 7.6.3 Initial Conditions for Dynamic Analysis; 7.6.4 Angle Reference, Infinite Bus, and COI Reference; 7.7 Numerical Solution: Power-Balance Form; 7.7.1 SI MethodSummary: Power System Dynamics and Stability; Contents; Preface; About the Companion Website; 1 Introduction; 1.1 Background; 1.2 Physical Structures; 1.3 Time-Scale Structures; 1.4 Political Structures; 1.5 The Phenomena of Interest; 1.6 New Chapters Added to this Edition; 2 Electromagnetic Transients; 2.1 The Fastest Transients; 2.2 Transmission Line Models; 2.3 Solution Methods; 2.4 Problems; 3 Synchronous Machine Modeling; 3.1 Conventions and Notation; 3.2 Three-Damper-Winding Model; 3.3 Transformations and Scaling; 3.4 The Linear Magnetic Circuit; 3.5 The Nonlinear Magnetic CircuitPPN: PPN: 897923375Package identifier: Produktsigel: ZDB-4-NLEBK
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