Smart energy grid engineering edited by Hossam A Gabbar

Contributor(s):

Gabbar, Hossam A [Editor, University of Ontario Institute of Technology (UOIT), Oshawa, ON, Canada]

Material type: Text

TextLanguage: English Publication details: London Academic Press 2017Description: 534 pages illustrations 24 cmContent type:

text

Media type:

unmediated

Carrier type:

volume

ISBN:

9780128053430

Subject(s):

Smart power grids

LOC classification:

TK3105 SMA

Contents:

Front Cover; Smart Energy Grid Engineering; Copyright; Dedication; Contents; Contributors; About the Authors; Hossam A. Gabbar; Tarek A. Youssef; Nasser Ayoub; Karl Christoph Ruland; SÉrgio F. Santos; Mehmet Hazar Cintuglu; William J. Miller; Yahya Koraz; Ahmed M. Othman; Xiaoli Meng; Osama Mohamed; João P.S. Catalão; Jason Runge; Ahmed S. Eldessouky; Jochen Sassmannshausen; Khairy Sayed; Miadreza Shafie-khah; Ahmed T. Elsayed; Abebe W. Bizuayehu; Desta Z. Fitiwi; Aboelsood Zidan; Foreword; Preface; Acknowledgments; Chapter 1: Introduction; 1.1. Introduction; 1.2. SEGs infrastructures 1.3. Micro energy grid1.4. Energy semantic network; 1.4.1. LCC Assessments of MEG; 1.4.2. MEG Interconnections Design and Operation Method; 1.4.3. Fault Diagnosis, Isolation, and Self-Healing of MEG; 1.5. Technological infrastructure of SEGs; 1.6. Conclusion; References; Chapter 2: Smart energy grid infrastructures and interconnected micro energy grids; 2.1. Background; 2.1.1. Historical Development of the Energy Grid; 2.1.2. Modernization Opportunities; 2.1.3. Definition of Smart Energy Grid; 2.1.4. Technological Innovations; 2.2. Smart energy grid structure 2.2.1. Energy Supply and Production Chains2.2.2. Modeling of Energy Generation and Conversion; 2.2.3. Energy Semantic Network; 2.2.4. Micro energy Grid Engineering Design; MEG power model; MEG thermal model; MEG fuel model; 2.3. Features of the SEG; 2.3.1. Reliability; 2.3.2. Flexibility in Network Topology; 2.3.3. Efficiency; Load adjustment and balancing; Peak curtailment, leveling, and time-of-use pricing; 2.3.4. Sustainability; 2.3.5. Market-enabling; Demand response support; Platform for advanced services; 2.4. Technology; 2.4.1. Integrated Communication; 2.4.2. Sensing and Measurement Smart metersPhasor measurement units; 2.4.3. Other Advanced Components; Distributed power/gas flow control; Smart energy generation using advanced components; 2.4.4. Advanced Control; 2.4.5. Improved Interfaces and Decision Support; 2.5. KPI Modeling of SEGs and MEGs; 2.6. Modeling and simulation; 2.6.1. SEG Infrastructure Modeling Framework; 2.6.2. Interconnected MEGs Modeling and Simulation; 2.7. Safety and protection of SEG; 2.7.1. Fault Semantic Network; 2.7.2. Framework for Safety and Protection of SEG; 2.8. Challenges in SEG Implementation; References Chapter 3: Optimal sizing and placement of smart-grid-enabling technologies for maximizing renewable integration3.1. Introduction; 3.2. State-of-the-Art Literature Review; 3.3. Objectives; 3.4. Mathematical Formulation of the Problem; 3.4.1. Introduction; 3.4.2. Objective Function; 3.4.3. Constraints; Kirchhoff's voltage law; Flow limits; Line losses; Kirchhoff's current law (active and reactive load balances); Bulk energy storage model constraints; Active and reactive power limits of DGs; Reactive power limit of capacitor banks; Active and reactive power limits of power purchased

Summary: This book provides in-depth detail on the various important engineering challenges of smart energy grid design and operation by focusing on advanced methods and practices for designing different components and their integration within the grid

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Holdings
Item type	Current library	Call number	Copy number	Status	Barcode
Book	Main Library Open Shelf	TK3105 SMA (Browse shelf(Opens below))	147704	Available	BK134547
Core Collection	Main Library Core Collection	TK3105 SMA (Browse shelf(Opens below))	147670	Available	BK134340
Book	Main Library Open Shelf	TK3105 SMA (Browse shelf(Opens below))	147529	Available	BK134538

Includes bibliographical references and index.

Front Cover; Smart Energy Grid Engineering; Copyright; Dedication; Contents; Contributors; About the Authors; Hossam A. Gabbar; Tarek A. Youssef; Nasser Ayoub; Karl Christoph Ruland; SÉrgio F. Santos; Mehmet Hazar Cintuglu; William J. Miller; Yahya Koraz; Ahmed M. Othman; Xiaoli Meng; Osama Mohamed; João P.S. Catalão; Jason Runge; Ahmed S. Eldessouky; Jochen Sassmannshausen; Khairy Sayed; Miadreza Shafie-khah; Ahmed T. Elsayed; Abebe W. Bizuayehu; Desta Z. Fitiwi; Aboelsood Zidan; Foreword; Preface; Acknowledgments; Chapter 1: Introduction; 1.1. Introduction; 1.2. SEGs infrastructures
1.3. Micro energy grid1.4. Energy semantic network; 1.4.1. LCC Assessments of MEG; 1.4.2. MEG Interconnections Design and Operation Method; 1.4.3. Fault Diagnosis, Isolation, and Self-Healing of MEG; 1.5. Technological infrastructure of SEGs; 1.6. Conclusion; References; Chapter 2: Smart energy grid infrastructures and interconnected micro energy grids; 2.1. Background; 2.1.1. Historical Development of the Energy Grid; 2.1.2. Modernization Opportunities; 2.1.3. Definition of Smart Energy Grid; 2.1.4. Technological Innovations; 2.2. Smart energy grid structure
2.2.1. Energy Supply and Production Chains2.2.2. Modeling of Energy Generation and Conversion; 2.2.3. Energy Semantic Network; 2.2.4. Micro energy Grid Engineering Design; MEG power model; MEG thermal model; MEG fuel model; 2.3. Features of the SEG; 2.3.1. Reliability; 2.3.2. Flexibility in Network Topology; 2.3.3. Efficiency; Load adjustment and balancing; Peak curtailment, leveling, and time-of-use pricing; 2.3.4. Sustainability; 2.3.5. Market-enabling; Demand response support; Platform for advanced services; 2.4. Technology; 2.4.1. Integrated Communication; 2.4.2. Sensing and Measurement
Smart metersPhasor measurement units; 2.4.3. Other Advanced Components; Distributed power/gas flow control; Smart energy generation using advanced components; 2.4.4. Advanced Control; 2.4.5. Improved Interfaces and Decision Support; 2.5. KPI Modeling of SEGs and MEGs; 2.6. Modeling and simulation; 2.6.1. SEG Infrastructure Modeling Framework; 2.6.2. Interconnected MEGs Modeling and Simulation; 2.7. Safety and protection of SEG; 2.7.1. Fault Semantic Network; 2.7.2. Framework for Safety and Protection of SEG; 2.8. Challenges in SEG Implementation; References
Chapter 3: Optimal sizing and placement of smart-grid-enabling technologies for maximizing renewable integration3.1. Introduction; 3.2. State-of-the-Art Literature Review; 3.3. Objectives; 3.4. Mathematical Formulation of the Problem; 3.4.1. Introduction; 3.4.2. Objective Function; 3.4.3. Constraints; Kirchhoff's voltage law; Flow limits; Line losses; Kirchhoff's current law (active and reactive load balances); Bulk energy storage model constraints; Active and reactive power limits of DGs; Reactive power limit of capacitor banks; Active and reactive power limits of power purchased

This book provides in-depth detail on the various important engineering challenges of smart energy grid design and operation by focusing on advanced methods and practices for designing different components and their integration within the grid

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