Phasor measurement units and wide area monitoring systems : from the sensors to the system /

Phasor Measurement Units and Wide Area Monitoring Systems presents complete coverage of phasor measurement units (PMUs), bringing together a rigorous academic approach and practical considerations on the implementation of PMUs to the power system. In addition, it includes a complete theory and pract...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Monti, Antonello (Editor ), Muscas, Carlo (Editor ), Ponci, Ferdinanda (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London, UK : Academic Press is an imprint of Elsevier, 2016.
Temas:
Electric power systems > Measurement.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Ch. 1 Introduction
  • 1.1.Motivation for the Work
  • 1.2.What is a PMU?
  • 1.3.A Short History of the PMU
  • 1.4.Structure of the Book
  • References
  • ch. 2 Basic Concepts and Definitions: Synchrophasors, Frequency, and ROCOF
  • 2.1.Basic Definitions of Synchrophasor, Frequency, and ROCOF
  • 2.2.Steady-State and Dynamic Conditions in Power Systems
  • 2.3.Importance of the Model: Classical Phasor Versus Dynamic Phasor
  • 2.4.Basic Definitions of Accuracy Indexes
  • References
  • ch. 3 Algorithms for Synchrophasors, Frequency, and ROCOF
  • 3.1.Methods to Calculate Synchrophasors Based on a Steady-State Model
  • 3.2.Methods Based on a Dynamic Signal Model
  • 3.3.Evaluation of Frequency and ROCOF
  • 3.4.Dynamic Behavior of Phasor Measurement Algorithms
  • References
  • ch. 4 Sensors for PMUs
  • 4.1.International Standards for Instrument Transformers
  • 4.2.Accuracy of Instrument Transformers
  • 4.3.Instrument Transformers Technologies
  • 4.4.Transducer Impact on PMU Accuracy
  • ch. 5 Hardware for PMU and PMU Integration
  • 5.1.Introduction
  • 5.2.PMU Architecture
  • 5.3.Data Acquisition System
  • 5.4.Synchronization Sources
  • 5.5.Communication and Data Collector
  • 5.6.Distributed PMU
  • References
  • ch. 6 International Standards for PMU and Tests for Compliance
  • 6.1.The Synchrophasor Standard
  • 6.2.Synchrophasors and IEC 61850
  • 6.3.Test for Compliance: Examples
  • Glossary
  • References
  • ch. 7 State Estimation and PMUs
  • 7.1.Introduction
  • 7.2.Formulation of the SE Problem
  • 7.3.SE Measurement Model
  • 7.4.SE Classification
  • 7.5.Role and Impact of PMU in SE
  • 7.6.PMU Based Transmission System SE
  • 7.7.PMU Based Distribution System SE
  • 7.8.Optimal PMU Placement
  • 7.9.SE Applications
  • 7.10.Automation Architecture with Integrated PMU Measurements for SE
  • References
  • ch. 8 Wide Area Measurement Systems: Applications
  • 8.1.Introduction
  • 8.2.Voltage-Stability Assessment Based on the Thevenin Approach and Synchrophasor Measurements
  • 8.3.Voltage-Stability Assessment Based on the Modal Analysis and Synchrophasor Measurements
  • 8.4.Adaptive Load Shedding Taking Advantage of the Synchrophasor Measurements
  • 8.5.Estimation of Grid Parameters
  • 8.6.Software Platform for Real-Time Monitoring Applications
  • 8.7.Implementation of a Real-time Monitoring Platform
  • 8.8.Monitoring Application
  • Distributed System State Estimation
  • Glossary
  • References
  • ch. 9 Real Life Examples of Wide Area Measurement Systems
  • 9.1.Introduction
  • 9.2.Structure of WAMS Integrated in Control and Management Systems
  • 9.3.Managing Oscillations in Power Systems
  • 9.4.Managing Disturbances
  • 9.5.Constraint Relief in Transmission and Distribution Systems
  • 9.6.Wide Area Control for System Defense
  • 9.7.Conclusions
  • Glossary
  • References.

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