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Modeling and Simulation of Wind Power Generation System

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  • Data category: Electric Power
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Modeling and simulation of wind power generation system: Wang Yi, Zhu Xiaorong, Zhao Shuqiang the publication date: 2015
Series items: Introduction to Wind Power Engineering Technology Series "Modeling and Simulation of Wind Power Generation Systems" First introduces the mathematical model of wind power generation mechanical and electrical systems and the principles of grid-connected control strategies, and then combines specific examples through / Simulink simulation software establishes a simulation model of a typical wind turbine, analyzes its main features such as maximum power tracking control, active and frequency adjustment, reactive power and voltage control, low voltage ride-through, and virtual inertia control for grid-connected control of wind turbines, and The grid allows wind power acceptance capacity, grid power flow calculation and reactive power optimization calculation, and the influence of wind power access on grid transient stability. In addition, the integration of offshore wind power and flexible large-scale wind farms through flexible DC transmission has become a new research hotspot. This book will introduce its basic principles and simulation modeling.
Chapter 1 Introduction
1.1 Overview
1.2 Development and current status of wind power
1.3 Types and composition of wind turbines
1.4 Simulation of wind power system
1.5 Overview of Simulation Software Chapter 2 Modeling of Pneumatic and Mechanical Systems of Wind Turbines
2.1 Overview
2.2 Wind speed model
2.3 Wind wheel model
2.4 Shaft system model
2.5 Simulation Examples Chapter 3 Principles and Modeling of Constant Speed Asynchronous Wind Turbines
3.1 Overview
3.2 Structure and principle
3.3 Steady-state model and characteristics
3.4 Simulation examples Chapter 4 Principle and modeling of doubly-fed asynchronous wind turbine
4.1 Overview
4.2 Operating principle and power relationship
4.3 Dynamic Model
4.4 Control Strategy
4.5 Simulation Examples Chapter 5 Principle and Modeling of Full Power Converter Driving Wind Turbines
5.1 Overview
5.2 Principles of Full Power Driven Wind Turbines
5.3 Direct-drive permanent magnet synchronous wind turbine
5.4 Asynchronous wind turbine driven by full power converter
5.5 Simulation Examples Chapter 6 Impact of Wind Power Generation on Power System
6.1 Overview
6.2 Wind power grid connection characteristics and basic parameters
6.3 Local impact of wind power on the power system
6.4 Impact of grid connection of wind power on system-wide power system
6.5 Simulation examples Chapter 7 Control technology of variable-speed wind turbines under grid disturbance conditions
7.1 Overview
7.2 Low Voltage Ride Through Technology of PMSG
7.3 Control of 3DFIG when grid voltage is unbalanced
7.4 Simulation examples Chapter 8 Control technology of grid-friendly wind turbines
8.1 Overview
8.2 Dynamic reactive power compensation of wind turbines
8.3 Virtual Inertial Control
8.4 Damping control of system power oscillation
8.5 Simulation examples Chapter 9 Wind farm interconnection based on VSC-HVDC
9.1 Overview
9.2 Modeling of VSC-HVDC
9.3 Control Strategy of 3VSC-HVDc
9.4 Multi-terminal voltage type DC transmission
9.5 Multi-wind farms connected via VSC-MTDC and power delivery simulation appendix

风力发电系统的建模与仿真 Modeling and Simulation of Wind Power Generation System

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