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E-book
Author Refaat, Shady S., author.

Title Smart grid and enabling technologies / Shady S. Refaat, Texas A&M University at Qatar, Doha, Qatar, Omar Ellabban, CSA Catapult Innovation Centre, Newport, UK, Sertac Bayhan, Qatar Environment and Energy Research Institute, Hamad bin Khalifa University, Doha, Qatar, Haitham Abu-Rub, Texas A&M University at Qatar, Doha, Qatar, Frede Blaabjerg, Aalborg University, Aalborg, Denmark, Miroslav M. Begovic, Texas A&M University, College Station, USA
Edition First edition
Published Hoboken, NJ : Wiley, 2021
Online access available from:
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Description 1 online resource
Contents About the Authors -- Acknowledgements -- Preface -- List of Abbreviations 1. Smart Grid Architectural Overview 1.1 Introduction -- 1.2 Fundamentals of Electric Power system -- 1.2.1 Electrical Power Generation -- 1.2.2 Electric Power Transmission -- 1.2.3 Electric Power Distribution -- 1.3 More limitations of the traditional power grid -- 1.3.1 Lack of circuit capacity and aging assets -- 1.3.2 Operation Constrains -- 1.3.3 Security of Supply -- 1.3.4 Respond to national initiatives -- 1.4 Smart Grid Definition -- 1.5 Smart Grid Characteristics -- 1.5.1 Achieve flexibility in the network topology -- 1.5.2 Improved efficiency -- 1.5.3 Transportation Electrification -- 1.5.4 Demand response support -- 1.5.5 Improvement in Reliability and Power Quality -- 1.5.6 Market-enabling -- 1.6 Moving towards Future grid -- 1.6.1 Electrification -- 1.6.2 Decentralization -- 1.6.3 Digitalization -- 1.7 The transformation from the traditional grid to smart grid -- 1.8 Smart Grid Enabling Technologies -- 1.9 Smart Grid Architecture -- 1.9.1 Distributed Generation -- 1.9.2 Energy Storage -- 1.9.3 Demand Response -- 1.9.4 Integrated communications -- 1.9.4.1 Communication Networks -- 1.9.4.2 Power Line Communication (PLC) -- 1.9.4.3 Standardization -- 1.9.5 Customer Engagement -- 1.9.6 Sensors and PMU Units -- 1.9.7 Smart Meters -- 1.10Classification of Smart Grid Control -- 1.11Smart Grid Challenges -- 1.11.1 Accessibility and acceptability -- 1.11.2 Accountability -- 1.11.3 Controllability -- 1.11.4 Interoperability -- 1.11.5 Interchangeability -- 1.11.6 Maintainability -- 1.11.7 Optimality -- 1.11.8 Security -- 1.11.9 Upgradability -- 1.12Organization of the Book 2. Renewable Energy: Overview, Opportunities and Challenges 2.1 Introduction -- 2.2 Description of Renewable Energy Sources -- 2.2.1 Bioenergy Energy -- 2.2.2 Geothermal Energy -- 2.2.3 Hydropower Energy -- 2.2.4 Marine Energy -- 2.2.5 Solar Energy -- 2.2.5.1 Photovoltaic -- 2.2.5.2 Concentrated Solar Power -- 2.2.5.3 Solar Thermal Heating and Cooling -- 2.2.6 Wind Energy -- 2.3 Renewable Energy: Growth, Investment, Benefits and Deployment -- 2.4 Smart Grid Enable Renewables -- 2.5 Conclusion -- 2.6 References 3. Power Electronics Converters for Distributed Generation 3.1 An overview of distributed generation systems with power electronics -- 3.1.1 Photovoltaic technology -- 3.1.2 Wind power technology -- 3.1.3 Energy storage systems -- 3.2 Power electronics for grid-connected AC smart grid -- 3.2.1 Voltage-source converters -- 3.2.2 Multilevel power converters -- 3.3 Power electronics enabled autonomous AC power systems -- 3.3.1 Converter level controls in microgrids -- 3.3.2 System level coordination control -- 3.4 Power electronics enabled autonomous DC power systems -- 3.4.1 Converter level controls -- 3.4.2 System level coordination control -- 3.5 Conclusion -- 3.6 References 4. Energy Storage Systems as an Enabling Technology for the Smart Grid 4.1 Introduction -- 4.2 Structure of Energy Storage System -- 4.3 Energy Storage Systems Classification and Description -- 4.4 Current State of Energy Storage Technologies -- 4.5 Techno-Economic Characteristics of Energy Storage Systems -- 4.6 Selection of Energy Storage Technology for Certain Application -- 4.7 Energy Storage Applications -- 4.8 Barriers to the Deployment of Energy Storage -- 4.9 Energy Storage Roadmap -- 4.10Conclusion -- 4.11References 5. Microgrids: State of the Art and Future Challenges 5.1 Introduction -- 5.2 DC Versus AC Microgrid -- 5.2.1 LVAC and LVDC Networks -- 5.2.2 AC Microgrid -- 5.2.3 DC Microgrid -- 5.3 Microgrid Design -- 5.3.1 Methodology for the Microgrid Design -- 5.3.2 Design Considerations -- 5.4 Microgrid Control -- 5.4.1 Primary Control Level -- 5.4.2 Secondary Control Level -- 5.4.3 Tertiary Control Level -- 5.5 Microgrid Economics -- 5.5.1 Capacity Planning -- 5.5.2 Operations Modeling -- 5.5.3 Financial Modeling -- 5.5.4 Barriers to Realizing Microgrids -- 5.6 Operation of Multi-Microgrids -- 5.7 Microgrid Benefits -- 5.7.1 Economic Benefits -- 5.7.2 Technical Benefits -- 5.7.3 Environmental Benefits -- 5.8 Challenges -- 5.9 Conclusion -- 5.10References 6. Smart Transportation 6.1 Introduction -- 6.2 Electric Vehicle Topologies -- 6.2.1 Battery Electric Vehicles -- 6.2.2 Plug-in Hybrid Electric Vehicles -- 6.2.3 Hybrid Electric Vehicles -- 6.2.4 Fuel-Cell Electric Vehicles -- 6.2.5 Fuel-Cell Electric Vehicles -- 6.3 Powertrain Architectures -- 6.3.1 Series HEV Architecture -- 6.3.2 Parallel HEV Architecture -- 6.3.3 Series-Parallel HEV Architecture -- 6.4 Battery Technology -- 6.4.1 Battery Parameters -- 6.4.2 Common Battery Chemistries -- 6.5 Battery Charger Technology -- 6.5.1 Charging Rates and Options -- 6.5.2 Wireless Charging -- 6.6 Vehicle to Grid (V2G) Concept -- 6.6.1 Unidirectional V2G -- 6.6.2 Bidirectional V2G -- 6.7 Barriers to EV Adoption -- 6.7.1 Technological Problems -- 6.7.2 Social Problems -- 6.7.3 Economic Problems -- 6.8 Trends and Future Developments -- 6.9 Conclusion -- 6.10References 7. Net Zero Energy Buildings 7.1 Introduction -- 7.2 Net Zero Energy Building Definition -- 7.3 Net Zero Energy Building Design -- 7.4 Net Zero Energy Building: Modelling, Controlling and Optimization -- 7.5 Net Zero Energy Community -- 7.6 Net Zero Energy Building: Trends, Benefits, Barriers and Efficiency Investments -- 7.7 Conclusion -- 7.8 Reference 8. Smart Grid Communication Infrastructures 8.1 Introduction -- 8.2 Advanced Metering Infrastructure -- 8.3 Smart Grid Communications -- 8.3.1 Challenges of SG Communications -- 8.3.2 Requirements of SG Communications -- 8.3.3 Architecture of SG Communication -- 8.3.4 SG Communication technologies -- 8.4 Conclusion -- 8.5 References 9. Smart Grid Information Security 9.1 Introduction -- 9.2 Smart Grid Layers -- 9.2.1 The power system layer -- 9.2.2 The information layer -- 9.2.3 The communication layer -- 9.3 Attacking Smart Grid Network Communication -- 9.3.1 Physical Layer Attacks. -- 9.3.2 Data Injection and Replay Attacks. -- 9.3.3 Network-Based Attacks -- 9.4 Physical Layer Attacks. -- 9.4.1 Resilient Industrial Control Systems -- 9.4.2 Areas of Resilience -- 9.4.2.1 Human systems -- 9.4.2.2 Cyber security -- 9.4.2.3 Complex networks and networked control systems -- 9.5 Cyber Security Challenges in Smart Grid -- 9.6 Adopting a Smart Grid Security Architecture Methodology -- 9.6.1 Smart Grid Security Objectives. -- 9.6.2 Cyber Security Requirements -- 9.6.2.1 Attack detection and resilience operations. -- 9.6.2.2 Identification, and access control. -- 9.6.2.3 Secure and efficient communication protocols. -- 9.7 Validating Your Smart Grid -- 9.8 Threats and Impacts: Consumers and Utility Companies -- 9.9 Governmental Effort to Secure Smart Grids -- 9.10Conclusion -- 9.11References -- 10. Data Management in Smart Grid -- 10.1Introduction -- 10.2 Sources of Data in Smart Grid -- 10.3Big Data Era -- 10.4Tools to Manage Big Data -- 10.4.1 Apache Hadoop -- 10.4.2 Not Only SQL (NoSQL) -- 10.4.3 Microsoft HDInsight -- 10.4.4 Hadoop MapReduce -- 10.4.5 Cassandra -- 10.4.6 Storm -- 10.4.7 Hive -- 10.4.8 Plotly -- 10.4.9 Talend -- 10.4.10 Bokeh -- 10.4.11 Cloudera -- 10.5Big Data Integration, Frameworks, and Data Bases -- 10.6Building the Foundation for Big Data Processing -- 10.6.1 Big Data Management Platform -- 10.6.1.1 Acquisition and Recording. -- 10.6.1.2 Extraction, Cleaning, and Prediction. -- 10.6.1.3 Big Data Integration -- 10.6.2 Big Data Analytics Platform -- 10.6.2.1 Modeling and Analysis -- 10.6.2.2 Interpretation -- 10.7Transforming Big Data for High Value Action -- 10.7.1 Decide what to produce -- 10.7.2 Source the raw materials -- 10.7.3 Produce insights with speed -- 10.7.4 Deliver the goods and act -- 10.8Privacy Information Impacts on Smart Grid. -- 10.9Meter Data Management for Smart Grid -- 10.10 Summary -- 10.11 References -- 11
Demand-Management -- 11.1 Introduction -- 11.2Demand Response -- 11.3Demand Response Programs -- 11.3.1 Load-Response Programs -- 11.3.2 Price Response Programs -- 11.4 End User Engagement -- 11.5Challenges of Demand Response within Smart Grid -- 11.6Demand-Side Management (DSM) -- 11.7Demand Side Management Techniques -- 11.8Demand-Side Management Evaluation -- 11.9Demand Response Applications -- 11.10 Summary -- 11.11 References -- 12. Business Models for the Smart Grid -- 12.1The Business Model Concept -- 12.2The Electricity Value Chain -- 12.3Electricity Markets -- 12.4Review of the Previous Proposed Smart Grid Business Models -- 12.4.1 Timing-Based Business Model -- 12.4.2 Business Intelligence Model -- 12.4.3 Business Models for Renewable Energy -- 12.4.4 Service-oriented Business Models -- 12.4.5 Prosumer Business Models -- 12.4.6 Integrated Energy Services Business Model -- 12.4.7 Future Business Model Levers -- 12.5Blockchain Based Electricity Market -- 12.6Conclusion -- 12.7References -- 13. Smart Grid Customers' Acceptance and Engagement -- 13.1Introduction -- 13.2Customer as one of the Smart Grid Domains -- 13.3Understanding the Smart Grid Customer -- 13.4Smart Grid Customer Acceptance -- 13.5Customer Engagement in the Smart Grid -- 13.6Challenges for Consumer Engagement, Policy Recommendation and Research Agenda -- 13.7Conclusion -- 14. Cloud Computing for Smart Grid -- 14.1 Introduction -- 14.2 Overview of Cloud Computing for Smart Grid -- 14.3 Cloud Computing -- 14.4 Cloud computing Architecture -- 14.4.1 1Infrastructure as a Service (IaaS) -- 14.4.2 2Platform-as-a-Service (PaaS) -- 14.4.3 Software-as-a-Service (SaaS) -- 14.5Cloud Computing Applications -- 14.6Cloud Applications for Smart Grid performance -- 14.7Cloud Applications for Energy Management -- 14.8Cloud computing-based power dispatching in smart grid -- 14.9Cloud computing characteristics in improving SG -- 14. ..
Summary "A "smart grid" is an electrical grid which includes a variety of operational and energy measures including smart meters, smart appliances, renewable energy resources, and energy efficiency resources. Electronic power conditioning and control of the production and distribution of electricity are important aspects of the smart grid. Integration of renewable energy resources and energy storage into the smart grid involve many aspects, such as: efficiency, reliability and energy conversion cost, forecasting of energy production capability, safe connection to the electric grid and/or capability to control micro-grids, efficient energy storage with low environmental impact, development of advanced control and monitoring algorithms, and networking of the sources/consumers"-- Provided by publisher
Bibliography Includes bibliographical references and index
Notes Description based on print version record and CIP data provided by publisher; resource not viewed
Subject Smart power grids.
Smart power grids.
Form Electronic book
Author Abu-Rub, Haithem, author.
Bayhan, Sertac, author.
Begovic, Miroslav M., 1956- author.
Blaabjerg, Frede, author.
Ellabban, Omar, author.
LC no. 2021012117
ISBN 1119422434
1119422450
1119422469
9781119422433
9781119422457
9781119422464