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Robust Control for Grid Voltage Stability: High Penetration of Renewable Energy [electronic resource] : Interfacing Conventional and Renewable Power Generation Resources / by Jahangir Hossain, Hemanshu Roy Pota.

By: Contributor(s): Material type: TextTextSeries: Power SystemsPublisher: Singapore : Springer Singapore : Imprint: Springer, 2014Description: XVIII, 311 p. 164 illus., 10 illus. in color. online resourceContent type:
Media type:
Carrier type:
ISBN:
  • 9789812871169
Subject(s): Additional physical formats: Printed edition:: No titleDDC classification:
  • 621.317
Online resources:
Contents:
Power System Voltage Stability and Models of Devices -- Linearization of Modal Analysis -- Dynamic Voltage Instability Analysis with Wind Generators and FACTS Devices -- Control for Voltage Stability with Dynamic Loads -- Control for Fault Ride-Through Capability Augmentation -- LVRT Capability of GFIGs in Interconnected Power Systems -- Non-interacting Controllers for PV Systems in Distribution Networks.
In: Springer eBooksSummary: This book makes the area of℗¡integration of renewable energy into the existing electricity grid accessible to engineers and researchers. This is a self-contained text which has models of power system devices and control theory necessary to understand and tune controllers in use currently. The new research in renewable energy integration is put into perspective by comparing the change in the system dynamics as compared to the traditional electricity grid. The emergence of the voltage stability problem is motivated by extensive examples. Various methods to mitigate this problem are discussed bringing out their merits clearly. As a solution to the voltage stability problem, the book covers the use of FACTS devices and basic control methods. An important contribution of this book is to introduce advanced control methods for voltage stability. It covers the application of output feedback methods with a special emphasis on how to bound modelling uncertainties and the use of robust control theory to design controllers for practical power systems. Special emphasis is given to designing controllers for FACTS devices to improve low-voltage ride-through capability of induction generators.℗¡ As generally PV is connected in low voltage distribution area, this book also provides a systematic control design for the PV unit in distribution systems. The theory is amply illustrated with large IEEE Test systems with multiple generators and dynamic load. Controllers are designed using Matlab and tested using full system models in PSSE.
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IT Carlow ebook

Power System Voltage Stability and Models of Devices -- Linearization of Modal Analysis -- Dynamic Voltage Instability Analysis with Wind Generators and FACTS Devices -- Control for Voltage Stability with Dynamic Loads -- Control for Fault Ride-Through Capability Augmentation -- LVRT Capability of GFIGs in Interconnected Power Systems -- Non-interacting Controllers for PV Systems in Distribution Networks.

This book makes the area of℗¡integration of renewable energy into the existing electricity grid accessible to engineers and researchers. This is a self-contained text which has models of power system devices and control theory necessary to understand and tune controllers in use currently. The new research in renewable energy integration is put into perspective by comparing the change in the system dynamics as compared to the traditional electricity grid. The emergence of the voltage stability problem is motivated by extensive examples. Various methods to mitigate this problem are discussed bringing out their merits clearly. As a solution to the voltage stability problem, the book covers the use of FACTS devices and basic control methods. An important contribution of this book is to introduce advanced control methods for voltage stability. It covers the application of output feedback methods with a special emphasis on how to bound modelling uncertainties and the use of robust control theory to design controllers for practical power systems. Special emphasis is given to designing controllers for FACTS devices to improve low-voltage ride-through capability of induction generators.℗¡ As generally PV is connected in low voltage distribution area, this book also provides a systematic control design for the PV unit in distribution systems. The theory is amply illustrated with large IEEE Test systems with multiple generators and dynamic load. Controllers are designed using Matlab and tested using full system models in PSSE.

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