"Smart Grid: Fundamentals of Design and Analysis" by James Momoh

ISBN: 047088939X

Category: Technical

Tag: Science/Engineering


Posted on 2012-04-17. By anonymous.

Description


"Smart Grid: Fundamentals of Design and Analysis" by James Momoh
Institute of Electrical and Electronics Engineers
IEEE Press, John Wiley & Sons | 2012 | ISBN: 047088939X 9780470889398 | 233 pages | PDF | 6 MB

The book is written as primer hand book for addressing the fundamentals of smart grid. It provides the working definition the functions, the design criteria and the tools and techniques and technology needed for building smart grid. The book is needed to provide a working guideline in the design, analysis and development of Smart Grid. It incorporates all the essential factors of Smart Grid appropriate for enabling the performance and capability of the power system. There are no comparable books which provide information on the “how to” of the design and analysis.

The book provides a fundamental discussion on the motivation for the smart grid development, the working definition and the tools for analysis and development of the Smart Grid. Standards and requirements needed for designing new devices, systems and products are discussed; the automation and computational techniques need to ensure that the Smart Grid guarantees adaptability, foresight alongside capability of handling new systems and components are discussed. The interoperability of different renewable energy sources are included to ensure that there will be minimum changes in the existing legacy system.


Brief CONTENTS
PREFACE
1 SMART GRID ARCHITECTURAL DESIGNS
2 SMART GRID COMMUNICATIONS AND MEASUREMENT TECHNOLOGY
3 PERFORMANCE ANALYSIS TOOLS FOR SMART GRID DESIGN
4 STABILITY ANALYSIS TOOLS FOR SMART GRID
5 COMPUTATIONAL TOOLS FOR SMART GRID DESIGN
6 PATHWAY FOR DESIGNING SMART GRID
7 RENEWABLE ENERGY AND STORAGE
8 INTEROPERABILITY STANDARDS, AND CYBER SECURITY
9 RESEARCH, EDUCATION, AND TRAINING FOR THE SMART GRID
10 CASE STUDIES AND TESTBEDS FOR THE SMART GRID
11 EPILOGUE
INDEX
List of titles in the IEEE Press Series on Power Engineering
Back

Contents
Preface
1 SMART GRID ARCHITECTURAL DESIGNS
1.1 Introduction
1.2 Today’s Grid versus the Smart Grid
1.3 Energy Independence and Security Act of 2007: Rationale for the Smart Grid
1.4 Computational Intelligence
1.5 Power System Enhancement
1.6 Communication and Standards
1.7 Environment and Economics
1.8 Outline of the Book
1.9 General View of the Smart Grid Market Drivers
1.10 Stakeholder Roles and Function
1.10.1 Utilities
1.10.2 Government Laboratory Demonstration Activities
1.10.3 Power Systems Engineering Research Center (PSERC)
1.10.4 Research Institutes
1.10.5 Technology Companies, Vendors, and Manufacturers
1.11 Working Defi nition of the Smart Grid Based on Performance Measures
1.12 Representative Architecture
1.13 Functions of Smart Grid Components
1.13.1 Smart Devices Interface Component
1.13.2 Storage Component
1.13.3 Transmission Subsystem Component
1.13.4 Monitoring and Control Technology Component
1.13.5 Intelligent Grid Distribution Subsystem Component
1.13.6 Demand Side Management Component
1.14 Summary
References
Suggested Readings
2 SMART GRID COMMUNICATIONS AND MEASUREMENT TECHNOLOGY
2.1 Communication and Measurement
2.2 Monitoring, PMU, Smart Meters, and Measurements Technologies
2.2.1 Wide Area Monitoring Systems (WAMS)
2.2.2 Phasor Measurement Units (PMU)
2.2.3 Smart Meters
2.2.4 Smart Appliances
2.2.5 Advanced Metering Infrastructure (AMI)
2.3 GIS and Google Mapping Tools
2.4 Multiagent Systems (MAS) Technology
2.4.1 Multiagent Systems for Smart Grid Implementation
2.4.2 Multiagent Specifi cations
2.4.3 Multiagent Technique
2.5 Microgrid and Smart Grid Comparison
2.6 Summary
References
3 PERFORMANCE ANALYSIS TOOLS FOR SMART GRID DESIGN
3.1 Introduction to Load Flow Studies
3.2 Challenges to Load Flow in Smart Grid and Weaknesses of the Present Load Flow Methods
3.3 Load Flow State of the Art: Classical, Extended Formulations, and Algorithms
3.3.1 Gauss–Seidal Method
3.3.2 Newton–Raphson Method
3.3.3 Fast Decouple Method
3.3.4 Distribution Load Flow Methods
3.4 Congestion Management Effect
3.5 Load Flow for Smart Grid Design
3.5.1 Cases for the Development of Stochastic Dynamic Optimal Power Flow (DSOPF)
3.6 DSOPF Application to the Smart Grid
3.7 Static Security Assessment (SSA) and Contingencies
3.8 Contingencies and Their Classifi cation
3.8.1 Steady-State Contingency Analysis
3.8.2 Performance Indices
3.8.3 Sensitivity-Based Approaches
3.9 Contingency Studies for the Smart Grid
3.10 Summary
References
Suggested Readings
4 STABILITY ANALYSIS TOOLS FOR SMART GRID
4.1 Introduction to Stability
4.2 Strengths and Weaknesses of Existing Voltage Stability Analysis Tools
4.3 Voltage Stability Assessment
4.3.1 Voltage Stability and Voltage Collapse
4.3.2 Classifi cation of Voltage Stability
4.3.3 Static Stability (Type I Instability)
4.3.4 Dynamic Stability (Type II Instability)
4.3.5 Analysis Techniques for Dynamic Voltage Stability Studies
4.4 Voltage Stability Assessment Techniques
4.5 Voltage Stability Indexing
4.6 Analysis Techniques for Steady-State Voltage Stability Studies
4.6.1 Direct Methods for Detecting Voltage Collapse Points
4.6.2 Indirect Methods (Continuation Methods)
4.7 Application and Implementation Plan of Voltage Stability
4.8 Optimizing Stability Constraint through Preventive Control of Voltage Stability
4.9 Angle Stability Assessment
4.9.1 Transient Stability
4.9.2 Stability Application to a Practical Power System
4.9.3 Boundary of the Region of Stability
4.9.4 Algorithm to Find the Controlling UEP
4.9.5 Process Changes in Design of DSA for the Smart Grid
4.10 State Estimation
4.10.1 Mathematical Formulations for Weighted Least Square Estimation
4.10.2 Detection and Identifi cation of Bad Data
4.10.3 Pre-Estimation Analysis
4.10.4 Postestimation Analysis
4.10.5 Robust State Estimation
4.10.6 SE for the Smart Grid Environment
4.10.7 Real-Time Network Modeling
4.10.8 Approach of the Smart Grid to State Estimation
4.10.9 Dynamic State Estimation
4.10.10 Summary
References
Suggested Readings
5 COMPUTATIONAL TOOLS FOR SMART GRID DESIGN
5.1 Introduction to Computational Tools
5.2 Decision Support Tools (DS)
5.2.1 Analytical Hierarchical Programming (AHP)
5.3 Optimization Techniques
5.4 Classical Optimization Method
5.4.1 Linear Programming
5.4.2 Nonlinear Programming
5.4.3 Integer Programming
5.4.4 Dynamic Programming
5.4.5 Stochastic Programming and Chance Constrained Programming (CCP)
5.5 Heuristic Optimization
5.5.1 Artifi cial Neural Networks (ANN)
5.5.2 Expert Systems (ES)
5.6 Evolutionary Computational Techniques
5.6.1 Genetic Algorithm (GA)
5.6.2 Particle Swarm Optimization (PSO)
5.6.3 Ant Colony Optimization
5.7 Adaptive Dynamic Programming Techniques
5.8 Pareto Methods
5.9 Hybridizing Optimization Techniques and Applications to the Smart Grid
5.10 Computational Challenges
5.11 Summary
References
6 PATHWAY FOR DESIGNING SMART GRID
6.1 Introduction to Smart Grid Pathway Design
6.2 Barriers and Solutions to Smart Grid Development
6.3 Solution Pathways for Designing Smart Grid Using Advanced Optimization and Control Techniques for Selection Functions
6.4 General Level Automation
6.4.1 Reliability
6.4.2 Stability
6.4.3 Economic Dispatch
6.4.4 Unit Commitment
6.4.5 Security Analysis
6.5 Bulk Power Systems Automation of the Smart Grid
at Transmission Level
6.5.1 Fault and Stability Diagnosis
6.5.2 Reactive Power Control
6.6 Distribution System Automation Requirement of the Power Grid
6.6.1 Voltage/VAr Control
6.6.2 Power Quality
6.6.3 Network Reconfi guration
6.6.4 Demand-Side Management
6.6.5 Distribution Generation Control
6.7 End User/Appliance Level of the Smart Grid
6.8 Applications for Adaptive Control and Optimization
6.9 Summary
References
Suggested Reading
7 RENEWABLE ENERGY AND STORAGE
7.1 Renewable Energy Resources
7.2 Sustainable Energy Options for the Smart Grid
7.2.1 Solar Energy
7.2.2 Solar Power Technology
7.2.3 Modeling PV Systems
7.2.4 Wind Turbine Systems
7.2.5 Biomass-Bioenergy
7.2.6 Small and Micro Hydropower
7.2.7 Fuel Cell
7.2.8 Geothermal Heat Pumps
7.3 Penetration and Variability Issues Associated with Sustainable Energy Technology
7.4 Demand Response Issues
7.5 Electric Vehicles and Plug-in Hybrids
7.6 PHEV Technology
7.6.1 Impact of PHEV on the Grid
7.7 Environmental Implications
7.7.1 Climate Change
7.7.2 Implications of Climate Change
7.8 Storage Technologies
7.9 Tax Credits
7.10 Summary
References
Suggested Reading
8 INTEROPERABILITY, STANDARDS, AND CYBER SECURITY
8.1 Introduction
8.2 Interoperability
8.2.1 State-of-the-Art-Interoperability
8.2.2 Benefi ts and Challenges of Interoperability
8.2.3 Model for Interoperability in the Smart Grid Environment
8.2.4 Smart Grid Network Interoperability
8.2.5 Interoperability and Control of the Power Grid
8.3 Standards
8.3.1 Approach to Smart Grid Interoperability Standards
8.4 Smart Grid Cyber Security
8.4.1 Cyber Security State of the Art
8.4.2 Cyber Security Risks
8.4.3 Cyber Security Concerns Associated with AMI
8.4.4 Mitigation Approach to Cyber Security Risks
8.5 Cyber Security and Possible Operation for Improving Methodology for Other Users
8.6 Summary
References
Suggested Readings
9 RESEARCH, EDUCATION, AND TRAINING FOR THE SMART GRID
9.1 Introduction
9.2 Research Areas for Smart Grid Development
9.3 Research Activities in the Smart Grid
9.4 Multidisciplinary Research Activities
9.5 Smart Grid Education
9.5.1 Module 1: Introduction
9.5.2 Module 2: Architecture
9.5.3 Module 3: Functions
9.5.4 Module 4: Tools and Techniques
9.5.5 Module 5: Pathways to Design
9.5.6 Module 6: Renewable Energy Technologies
9.5.7 Module 7: Communication Technologies
9.5.8 Module 8: Standards, Interoperability, and Cyber Security
9.5.9 Module 9: Case Studies and Testbeds
9.6 Training and Professional Development
9.7 Summary
References
10 CASE STUDIES AND TESTBEDS FOR THE SMART GRID
10.1 Introduction
10.2 Demonstration Projects
10.3 Advanced Metering
10.4 Microgrid with Renewable Energy
10.5 Power System Unit Commitment (UC) Problem
10.6 ADP for Optimal Network Reconfi guration in Distribution Automation
10.7 Case Study of RER Integration
10.7.1 Description of Smart Grid Activity
10.7.2 Approach for Smart Grid Application
10.8 Testbeds and Benchmark Systems
10.9 Challenges of Smart Transmission
10.10 Benefi ts of Smart Transmission
10.11 Summary
References
11 EPILOGUE
Index
with TOC BookMarkLinks


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