This book covers different topics from smart grids and sustainable energy, including: automation and control of smart grids, sustainability and energy efficiency, security and stability of smart grids, and intelligent implementation of smart grids. Section 1 focuses on automation and control of smart grids, describing smart grids: future of electrical transmission and distribution, building automation networks for smart grids, voltage control in smart grids: an approach based on sensitivity theory, agents for smart power grids, and distributed optimal control of transient stability for a power information physical system. Section 2 focuses on sustainability and energy efficiency, describing energy efficiency in smart grid: a prospective study on energy management systems, energy efficiency and renewable energy technologies using smart grids: study case on NIPE building at UNICAMP campus, towards attaining reliable and efficient green cloud computing using micro-smart grids to power internet data center, the development of electricity grid, smart grid and renewable energy in Taiwan, and optimal power flow approach for cognitive and reliable operation of distributed generation as smart grid. Section 3 focuses on security and stability of smart grids, describing a secure and scalable data communication scheme in smart grids, S-DPS: an SDN-based DDOS protection system for smart grids, distribution system reliability analysis for smart grid applications, and approach to assess the resiliency of electric power grids. Section 4 focuses on intelligent implementations of smart grids, describing intelligent load shedding using TCP/IP for smart grids, intelligent load management scheme for a residential community in smart grids network using fair emergency demand response programs, towards implementation of smart grid: an updated review on electrical energy storage systems, and a perspective on the future of distribution: smart grids, state of the art, benefits and research plans.
Author(s): Zoran Gacovski
Publisher: Arcler Press
Year: 2022
Language: English
Pages: 422
City: Burlington
Cover
Title Page
Title Page
DECLARATION
ABOUT THE EDITOR
TABLE OF CONTENTS
List of Contributors
List of Abbreviations
Preface
Section 1: Automation and Control of Smart Grids
Chapter 1 Smart Grid: Future of Electrical Transmission and Distribution
Abstract
Introduction
Traditional Grid Vs. Smart Grid
Challenges to Be Faced
Conclusions
References
Chapter 2 Building Automation Networks for Smart Grids
Abstract
Introduction
System Architecture
Zigbee-Based Home Automation
Interoperability of Zigbee and Wi-Fi
Interference Avoidance Scheme
Opportunistic Load Scheduling
Open Issues and Future Work
Conclusion
References
Chapter 3 Voltage Control in Smart Grids: An Approach Based on Sensitivity Theory
Abstract
Introduction
The Proposed Criteria to Control the Network Voltage with Distributed Generation
The Proposed Sensitivity Approach
Application of the Proposed Method
Conclusions
References
Chapter 4 Agents for Smart Power Grids
Abstract
Introduction
Smart Grid
Agent Implementation
Illustrative Example
Conclusion
References
Chapter 5 Distributed Optimal Control of Transient Stability for a Power Information Physical System
Abstract
Introduction
Transient Stability Control of a Smart Grid
Distributed Area Optimal Control for the Transient Stability of a Smart Grid
Simulation Example
Conclusions
Acknowledgments
References
Section 2: Sustainability and Energy Efficiency
Chapter 6 Energy Efficiency in Smart Grid: A Prospective Study on Energy Management Systems
Abstract
Introduction
Smart Grid Technologies
Energy Management Systems in Smart Grid
Analysis of the Condition of Demand Response
Cloud Computing Solutions in Smart Grid
Barriers of Brazilian Electrical Grid
Final Considerations
Acknowledgements
References
Chapter 7 Energy Efficiency and Renewable Energy Technologies Using Smart Grids: Study Case on NIPE Building at UNICAMP Campus
Abstract
Introduction
Renewable Energy and Energy Efficiency on Brazilian Context
Smart Grid and Energy Efficiency
Retrofit Buildings: Brief Description of the Case Study Progress in Building Nipe-Unicamp
Final Considerations
References
Chapter 8 Towards Attaining Reliable and Efficient Green Cloud Computing Using Micro-Smart Grids to Power Internet Data Center
Abstract
Introduction
Green IT
Cloud Computing
A Proposed Solution to Alarming High Energy Consumption and Related Issues of IDCS
Conclusion
Acknowledgements
References
Chapter 9 The Development of Electricity Grid, Smart Grid and Renewable Energy in Taiwan
Abstract
Introduction
Transmission and Distribution Network
Regulations on Transmission and Distribution Networks From the Perspective of the Newest Revision of Electricity Act
Smart Grid
Integration of Renewable Energy Into the Grid
US and EU Development
Conclusions
Notes
References
Chapter 10 Optimal Power Flow Approach for Cognitive and Reliable Operation of Distributed Generation as Smart Grid
Abstract
Introduction
Evolutionary Flowchart Topographies for a Suitable Demand Side Management Technique for Future Smart Grid
Optimal Power Flow Strategy for Smart Grid
Simulation Results for Optimal Power Flow
Results
Conclusion
References
Section 3: Security and Stability of Smart Grids
Chapter 11 A Secure and Scalable Data Communication Scheme in Smart Grids
Abstract
Introduction
Related Work
Preliminaries
Architecture and Protocol
Performance Analysis
Conclusion
Appendix
Acknowledgments
References
Chapter 12 S-DPS: An SDN-Based DDoS Protection System for Smart Grids
Abstract
Introduction
Literature Review
System Model
Experimental Setup
Results and Discussion
Performance Evaluation
Conclusion
Acknowledgments
References
Chapter 13 Distribution System Reliability Analysis for Smart Grid Applications
Abstract
Introduction
Literature Review
Case Studies
Conclusion
Acknowledgements
References
Chapter 14 An Approach to Assess the Resiliency of Electric Power Grids
Abstract
Introduction
Static Security Assessment (SSA)
Dynamic Security Assessment (DSA)
Application of Machine Learning Techniques
Landmark Points And Linear Kernel
Strategy to Select Best Landmark Points
Concluding Remarks
Acknowledgements
References
Section 4: Intelligent implementation of Smart Grids
Chapter 15 Intelligent Load Shedding Using TCP/IP for Smart Grids*
Abstract
Introduction And Background
ILS Design Using TCP/IP
Mg’s Network With Intelligent Control
Implemented Network in Matlab
Results and Conclusions
Future Work
References
Chapter 16 Intelligent Load Management Scheme for a Residential Community in Smart Grids Network Using Fair Emergency Demand Response Programs
Abstract
Introduction
Related Work
Problem Formulation
Modeling and Analysis of FEDRP
Numerical Results and Simulation
Conclusion
Acknowledgements
References
Chapter 17 Towards Implementation of Smart Grid: An Updated Review on Electrical Energy Storage Systems
Abstract
Introduction
Smart Grid: Technology Description
Energy Storage—A Key Enabler of Smart Grid
Available Energy Storage Systems
Concluding Remarks
References
Chapter 18 A Perspective on the Future of Distribution: Smart Grids, State of the Art, Benefits and Research Plans
Abstract
Introduction
Distributed Generation Possible Benefits and Problematics
Current Scenario and Future Evolution of Distribution Systems: The Smart Grids
International Research Projects on Smart Grids
Conclusions
Acknowledgements
References
Index
Back Cover