Overview

Presents the principles, derivations, and equations of renewable energy power plants, including MATLAB code Advanced Control of Grid-Integrated Renewable Energy Power Plants presents a comprehensive introduction to the power system dynamics and stability of renewable energy power plants (RPPs), such as wind turbines, wind power plants, and photovoltaic systems. The author—a noted expert on the topic—takes a rigorous approach to the analysis and modelling of RPPs, such as turbine rotors, PV cells, electronic converters, transformers, and aggregated grid models. This approach allows for the validation of requirements for sustainable power systems based on formal methods. The text deals with nonlinear model-based observer and control design techniques in the Takagi-Sugeno (TS) framework. It explores the Takagi-Sugeno fuzzy (TSF) models which are nonlinear systems, in which the consequent part of a fuzzy rule is a mathematical formula, representing local dynamics or limited nonlinearities by sector functions. The strong property of the TSF finds several applications modelling dynamical systems that can be described by differential equations. The book’s practical exercises use MATLAB code to help model simulation models of single large-scale wind turbines, wind farms, and photovoltaic plants. This important book: Provides a complete introduction to the power system dynamics and stability of renewable energy power plants Includes a detailed discussion of how to design model model-based controllers for RPPs Takes a rigorous approach to the analysis and modelling of RPPs, including turbine rotors, PV cells, electronic converters, transformers, aggregated grid models, and more Includes MATLAB code to model simulation models of single large-scale wind turbines, wind farms, and photovoltaic plants Written for students and researchers of renewable energy, Advanced Control of Grid-Integrated Renewable Energy Power Plants offers an authoritative text to the topic.

Full Product Details

Author:   Horst Schulte (HTW Berlin, Germany)
Publisher:   John Wiley & Sons Inc
Imprint:   Wiley-IEEE Press
Dimensions:   Width: 15.20cm , Height: 2.40cm , Length: 22.90cm
Weight:   0.539kg
ISBN:  

9781119701392

ISBN 10:   1119701392
Pages:   288
Publication Date:   18 July 2024
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available.

Table of Contents

Preface ix Acronyms xi Notation xiii 1 Introduction 1 1.1 Energy Transition 1 1.2 Problem Description 5 1.3 Methodological Framework 9 1.4 Topics of this Book 12 2 Modeling of Wind Turbines 15 2.1 Introduction 15 2.2 First-Principle Modeling 16 2.3.5 Multi-region Model for Controller Design 57 2.4 Summary 60 2.5 Problems 60 2.6 Bibliography 61 3 Control of Wind Turbines 63 3.1 Introduction 63 3.2 Baseline Generator-Torque and Blade-Pitch Controller 63 3.3 Model-Based Control of WTs 72 3.4 Model-Based Power Tracking 95 3.5 Summary 111 3.6 Problems 112 3.7 Bibliography 113 4 Modeling and Control of Photovoltaic Power Plants 115 4.1 Introduction 115 4.2 Modeling of PV Generators 116 4.3 DC-DC Converter Modeling 121 4.4 Voltage Control of PV Generators 131 4.5 Demanded Power Tracking 147 4.6 Summary 160 4.7 Problems 160 4.8 Bibliography 161 5 Modeling and Control of Voltage Source Converters 163 5.1 Introduction 163 5.2 Three-Phase Signals and Systems 165 5.3 Average and Instantaneous Power 169 5.4 Reduced-Order VSC Model 173 5.5 Power Injection in the Steady State 175 5.6 Voltage Drop in the Steady State 176 5.7 Selected Control Concepts 179 5.8 Summary 190 5.9 Problems 190 5.10 Bibliography 191 6 Advanced Grid Integration of PV and Wind Power Plants 193 6.1 Introduction 193 6.2 Description of Test Scenarios 194 6.3 Integration of Wind Power Plants 197 6.4 Integration of PV Power Plants 205 6.5 Summary 210 6.6 Problems 211 6.7 Bibliography 212 A Modeling in the Takagi-Sugeno Framework 213 A.1 Introduction 213 A.2 Constructing TS Systems 214 B LMI Conditions for Stability Analysis and Controller Design 219 B.1 Introduction 219 B.2 Linear Matrix Inequalities 220 B.3 Stability Analysis of TS Systems 223 B.4 Relaxations 229 B.5 State Feedback Design for TS Systems 230 B.6 Observer Design for TS Systems 236 C Renewable Energy Sources 239 C.1 Wind Energy Systems 239 D Parameters of Renewable Energy Power Plants 243 D.1 Physical Constants 243 D.2 Wind Power Plant Parameters 243 D.3 PV Power Plant Parameters 243 D.4 VSC Parameters 245 D.5 Equivalent Grid Model Parameters 246 E Control Concept for Bumpless Transition Between Operating Regions 247 References 251 Index 265

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Author Information

Horst Schulte, PhD, is the Head of Control Engineering Group, HTW Berlin, Germany.

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