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Smart Grid as a Solution for Renewable and Efficient Energy

Book Description

As the need for proficient power resources continues to grow, it is becoming increasingly important to implement new strategies and technologies in energy distribution to meet consumption needs. The employment of smart grid networks assists in the efficient allocation of energy resources. Smart Grid as a Solution for Renewable and Efficient Energy features emergent research and trends in energy consumption and management, as well as communication techniques utilized to monitor power transmission and usage. Emphasizing developments and challenges occurring in the field, this book is a critical resource for researchers and students concerned with signal processing, power demand management, energy storage procedures, and control techniques within smart grid networks.

Table of Contents

  1. Cover
  2. Title Page
  3. Copyright Page
  4. Book Series
    1. Mission
    2. Coverage
  5. Editorial Advisory Board
  6. Preface
    1. SECTION 1: ENERGY MANAGEMENT, SCHEDULING, AND STORAGE
    2. SECTION 2: MEASUREMENT, CONTROL, SIGNAL PROCESSING, AND COMMUNICATION TECHNIQUES
  7. Acknowledgment
  8. Section 1: Energy Management, Scheduling, and Storage
    1. Chapter 1: Optimized Energy Consumption and Demand Side Management in Smart Grid
      1. ABSTRACT
      2. INTRODUCTION
      3. COMPONENTS OF SMART GRID AT DISTRIBUTION LEVEL
      4. SMART EQUIPMENTS AND DEMAND SIDE MANAGEMENT
      5. REDUCTION IN ENERGY CONSUMPTION BY USING ENERGY CONSUMPTION SCHEDULING
      6. CONCLUSION
      7. REFERENCES
      8. ADDITIONAL READING
      9. KEY TERMS AND DEFINITIONS
    2. Chapter 2: Energy Cost Saving Tips in Distributed Power Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. MAIN FOCUS OF THE CHAPTER
      5. INCENTIVIZING CONSUMERS
      6. INTEGRATION OF RENEWABLE ENERGIES
      7. PROSUMERS INTERACTION WITH THE POWER MARKET
      8. SOLUTIONS AND RECOMMENDATIONS
      9. FUTURE RESEARCH DIRECTIONS
      10. CONCLUSION
      11. REFERENCES
      12. KEY TERMS AND DEFINITIONS
    3. Chapter 3: Smart Grid and Demand Side Management
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. ARTIFICIAL INTELLIGENCE AND METAHEURISTIC ALGORTIHMS
      5. SOLUTIONS AND RECOMMENDATIONS
      6. FUTURE RESEARCH DIRECTIONS
      7. CONCLUSION
      8. REFERENCES
      9. ADDITIONAL READING
      10. KEY TERMS AND DEFINITIONS
    4. Chapter 4: Efficient Control Strategies to Optimize Electricity Cost and Consumer Satisfaction
      1. ABSTRACT
      2. INTRODUCTION
      3. SYSTEM MODEL
      4. PROBLEM STATEMENT
      5. REAL TIME LSHS ALGORITHM
      6. SIMULATION RESULTS
      7. CONCLUSION
      8. REFERENCES
      9. KEY TERMS AND DEFINITIONS
    5. Chapter 5: Modeling and Operating Strategies of Micro-Grids for Renewable Energy Communities
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND AND MOTIVATION
      4. CONCLUSION
      5. REFERENCES
      6. KEY TERMS AND DEFINITION
    6. Chapter 6: Management of Scheduling and Trading in Hybrid Energy Trading Market
      1. ABSTRACT
      2. 1. INTRODUCTION
      3. 2. RELATED STUDIES AND OUTLINE OF THIS CHAPTER
      4. 3. MODEL OF THE HYBRID ENERGY TRADING MARKET AND USERS’ BEHAVIORS
      5. 4. PROBLEM FORMULATION FOR THE HYBRID ENERGY TRADING
      6. 5. EXTENDED CASES OF THE MULTIPLE LOCAL TRADING CONTROLLERS
      7. 6. CONCLUSION
      8. ACKNOWLEDGMENT
      9. REFERENCES
      10. KEY TERMS AND DEFINITIONS
    7. Chapter 7: Battery Management Based on Predictive Control and Demand-Side Management
      1. ABSTRACT
      2. INTRODUCTION TO DEMAND SIDE MANAGEMENT
      3. THE NEED FOR PEAK PHOTOVOLTAIC GRID FEED-IN SHAVE
      4. FORECAST MODEL
      5. BATTERIES
      6. OPTIMAL CONTROL PROBLEM
      7. CONCLUSION
      8. REFERENCES
      9. KEY TERMS AND DEFINITIONS
    8. Chapter 8: Revolution of Energy Storage System in Smart Grids
      1. ABSTRACT
      2. 1. INTRODUCTION
      3. 2. THE TECHNOLOGY EVOLUTION
      4. 3. ROLES OF THE ENERGY STORAGE IN SMART GRIDS
      5. 4. ADVANTAGES AND LIMITATIONS OF DIFFERENT STORAGE TECHNOLOGIES
      6. 5. RESEARCH CASE STUDY: ENERGY STORAGE SYSTEM FOR POWER QUALITY IMPROVEMENT WITH PHOTOVOLTAIC SYSTEMS
      7. 6. LOCATION OF THE ENERGY STORAGE SYSTEM
      8. 7. CONCLUSION
      9. REFERENCES
      10. ADDITIONAL READING
      11. KEY TERMS AND DEFINITIONS
  9. Section 2: Measurement, Control, Signal Processing, and Communication Techniques
    1. Chapter 9: Measuring Cascading Failures in Smart Grid Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. TOPOLOGICAL METRICS
      5. DEFINITIONS
      6. FUTURE RESEARCH DIRECTIONS
      7. CONCLUSION
      8. REFERENCES
      9. KEY TERMS AND DEFINITIONS
    2. Chapter 10: Identification of Reliability Critical Items in Large and Complex Rail Electrical Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. GENERAL DESCRIPTION OF THE 750 V DC THIRD RAIL TRACTION POWER ELECTRICAL NETWORK
      5. BAYESIAN NETWORKS METHODOLOGY
      6. RELIABILITY CRITICAL ITEMS IN THE RAIL ELECTRIFICATION NETWORK
      7. CONCLUSION
      8. ACKNOWLEDGMENT
      9. REFERENCES
      10. ADDITIONAL READING
      11. KEY TERMS AND DEFINITIONS
    3. Chapter 11: Implementation of Improved Control Strategy of DC-AC Converter using Delta-Sigma Modulator
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. MAIN FOCUS OF THE CHAPTER
      5. SOLUTIONS AND RECOMMENDATIONS
      6. FUTURE RESEARCH DIRECTIONS
      7. CONCLUSION
      8. REFERENCES
      9. KEY TERMS AND DEFINITIONS
      10. APPENDIX
    4. Chapter 12: Signal Processing Techniques in Smart Grids
      1. ABSTRACT
      2. 1. INTRODUCTION
      3. 2. THE SMART GRID
      4. 3. SIGNAL PROCESSING TECHNIQUES IN SMART GRID
      5. 4. CHALLENGES AND LIMITATIONS OF THE SIGNAL PROCESSING TECHNIQUES IN SMART GRID
      6. 5. FUTURE RESEARCH DIRECTIONS
      7. 6. CONCLUSION
      8. REFERENCES
      9. ADDITIONAL READING
      10. KEY TERMS AND DEFINITIONS
    5. Chapter 13: Implementation of Flooding Free Routing in Smart Grid
      1. ABSTRACT
      2. INTRODUCTION
      3. PROPOSED SOLUTION
      4. CONCLUSION
      5. REFERENCES
      6. ADDITIONAL READING
      7. KEY TERMS AND DEFINITION
    6. Chapter 14: Dynamic Trust Elective Geo Routing to Secure Smart Grid Communication Networks
      1. ABSTRACT
      2. 1. INTRODUCTION
      3. 2. SMART GRID NETWORK INFRASTRUCTURE
      4. 3. SECURITY THREATS IN SMART GRID NETWORK
      5. 4. MODELLING TRUST
      6. 5. FUZZY-BASED ENERGY AWARE TRUST GEO ROUTING (FEATGR)
      7. 6. SIMULATION STUDIES
      8. 7. CONCLUSION
      9. REFERENCES
      10. KEY TERMS AND DEFINITIONS
    7. Chapter 15: Geographic Information System for the Smart Grid
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. SOLUTIONS AND RECOMMENDATIONS
      5. FUTURE RESEARCH DIRECTIONS
      6. CONCLUSION
      7. REFERENCES
      8. KEY TERMS AND DEFINITIONS
  10. Compilation of References
  11. About the Contributors