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Control and Dynamics in Power Systems and Microgrids
Control and Dynamics in Power Systems and Microgrids
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Author(s): Fan, Lingling
ISBN No.: 9781138034990
Pages: 218
Year: 201705
Format: Trade Cloth (Hard Cover)
Price: $ 178.26
Status: Out Of Print
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1 Introduction 1.1 Why a new textbook 1.2 Structure of this book 2 Dynamic Simulation 2.1 Numerical integration methods. 2.2 Dynamic simulation for an RLC circuit 2.3 MATLAB/Simulink for model building and dynamic simulation 2.4 MATLAB commands for linear system simulation 2.


5 Summary 3 Frequency Control 3.1 Important facts 3.2 Plant model: swing equations 3.3 How to reduce steady-state frequency deviation 3.4 How to eliminate frequency deviation 3.5 Validation of Frequency Control Design 3.6 More examples on frequency control 4 Synchronous Generator Models 4.1 Generator steady-state circuit model 4.


2 Space vector concept 4.3 Synchronous Generators with Salient rotors. 4.5 Simplified dynamic model -Flux decay model 5 Voltage Control of a Synchronous Generator 5.1 Introduction 5.2 Plant model: no dynamics included 5.3 Plant model: rotor flux dynamics only 5.4 Voltage control design based on a first-order plant model 5.


5 Voltage control design considering swing dynamics 5.6 Summary 6 Frequency and Voltage Control in a Microgrid 6.1 Control of a Voltage Source Converter (VSC) 6.2 Power sharing methods 7 Large-Signal Stability 7.1 Introduction 7.2 Lyapunov stability criterion 7.3 Equal-area method 7.4 Time-domain Simulation Results.


8 Small-Signal Stability 8.1 SMIB system stability 8.2 Inter-area oscillations 8.3 Subsynchronous Resonances Index ;/P> 4.2 Space vector concept 4.3 Synchronous Generators with Salient rotors. 4.5 Simplified dynamic model -Flux decay model 5 Voltage Control of a Synchronous Generator 5.


1 Introduction 5.2 Plant model: no dynamics included 5.3 Plant model: rotor flux dynamics only 5.4 Voltage control design based on a first-order plant model 5.5 Voltage control design considering swing dynamics 5.6 Summary 6 Frequency and Voltage Control in a Microgrid 6.1 Control of a Voltage Source Converter (VSC) 6.2 Power sharing methods 7 Large-Signal Stability 7.


1 Introduction 7.2 Lyapunov stability criterion 7.3 Equal-area method 7.4 Time-domain Simulation Results. 8 Small-Signal Stability 8.1 SMIB system stability 8.2 Inter-area oscillations 8.3 Subsynchronous Resonances Index >7.


4 Time-domain Simulation Results. 8 Small-Signal Stability 8.1 SMIB system stability 8.2 Inter-area oscillations 8.3 Subsynchronous Resonances Index.


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