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Voltage Stability in Electrical Power Systems. Concepts, Assessment, and Methods for Improvement. Edition No. 1

  • Book

  • 288 Pages
  • December 2022
  • John Wiley and Sons Ltd
  • ID: 5840867
Voltage Stability in Electrical Power Systems

Explore critical topics and the latest research in voltage stability in electric power systems

In Voltage Stability in Electrical Power Systems: Concepts, Assessment, and Methods for Improvement, three distinguished electrical engineers deliver a comprehensive discussion of voltage stability analysis in electrical power systems. The book discusses the concept of voltage stability, effective factors and devices, and suitable system modeling, offering readers an authoritative overview of the subject and strategies to prevent instability in power systems.

The authors explore critical topics such as load and load tap changer (LTC) transformer modeling and the impact of distributed generation and transmission-distribution interactions on voltage stability. They also present practical methods to improve voltage stability.

Readers will also find: - Thorough introductions to voltage stability, effective factors and devices, and suitable systems modeling - Comprehensive explorations of voltage stability assessment methods, including the continuation power flow methods and PV-curve fitting - In-depth explorations of methods of improving voltage stability, including preventive and corrective methods - Fulsome presentations of measurement-based indices and model-based indices of stability assessment

Perfect for engineers and other professionals designing electric power systems, Voltage Stability in Electrical Power Systems: Concepts, Assessment, and Methods for Improvement will also earn a place in the libraries of graduate and senior undergraduate students with an interest in power systems.

Table of Contents

Foreword

Preface

Chapter 1 How does voltage instability occur?

Chapter 2 Loads and Load Tap Changer (LTC) transformer modeling

Chapter 3 Generator modeling

Chapter 4 Impact of distributed generation and transmission-distribution interactions on voltage stability

Chapter 5 The continuation power flow methods

Chapter 6 PV-curve fitting

Chapter 7 Measurement-based indices

Chapter 8 Model-based indices

Chapter 9 Machine learning-based assessment methods

Chapter 10 Preventive Control of Voltage Instability

Chapter 11 Emergency Control of Voltage Instability

Authors

Farid Karbalaei Shahid Rajaee Teacher Training University, Tehran, Iran. Shahriar Abbasi Technical and Vocational University of Iran, Kermanshah, Iran. Hamid Reza Shabani Aalborg University, Esbjerg, Denmark.