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Handbook of Research on Emerging Technologies for Electrical Power Planning, Analysis, and Optimization

Book Description

As the demand for efficient energy sources continues to grow around the globe, electrical systems are becoming more essential in an effort to meet these increased needs. As these systems are being utilized more frequently, it becomes imperative to find ways of optimizing their overall function. The Handbook of Research on Emerging Technologies for Electrical Power Planning, Analysis, and Optimization features emergent methods and research in the systemic and strategic planning of energy usage. Highlighting theoretical perspectives and empirical research, this handbook is a comprehensive reference source for researchers, practitioners, students, and professionals interested in the current advancements and efficient use in power systems.

Table of Contents

  1. Cover
  2. Title Page
  3. Copyright Page
  4. Book Series
    1. Mission
    2. Coverage
  5. Dedication
  6. Editorial Advisory Board
  7. Foreword
  8. Preface
  9. Chapter 1: Electrical Faults in Power Systems
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. THE MAIN ELECTRICAL FAULTS
    4. 3. CONCLUSION
    5. REFERENCES
  10. Chapter 2: Stochastic Contingency Analysis Based on Voltage Stability Assessment in Islanded Power System Considering Load Uncertainty Using MCS and k-PEM
    1. ABSTRACT
    2. INTRODUCTION
    3. LARGE POWER SYSTEM CONTROLLED ISLANDING BASED ON BACKWARD ELIMINATION METHOD AND PRIMARY MAXIMUM EXPANSION AREAS
    4. DETERMINATION OF BOUNDARY NETWORK
    5. SIMULATION RESULTS AND DISCUSSION
    6. FUTURE RESEARCH DIRECTIONS
    7. CONCLUSION
    8. REFERENCES
  11. Chapter 3: Energy-Efficient Routing Techniques for Wireless Sensors Networks
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. ROUTING CHALLENGES
    4. 3. ENERGY-EFFICIENT WSN ROUTING TECHNIQUES
    5. 4. DISCUSSIONS AND FUTURE WORKS
    6. REFERENCES
  12. Chapter 4: Energy Management Strategies to Improve Electrical Networks Using Storage Systems
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. THE NEED OF ENERGY STORAGE FROM THE ECONOMIC POINT OF VIEW
    4. 3. STRATEGIES OF INTERCONNECTION BETWEEN GENERATION SYSTEMS AND ENERGY STORAGE SYSTEMS
    5. 4. AN INTELLIGENT ENERGY MANAGEMENT APPROACH
    6. 5. CONCLUSION
    7. REFERENCES
  13. Chapter 5: Distributed Generation Capacity Planning for Distribution Networks to Minimize Energy Loss
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. SYSTEM MODELING
    4. 3. PROPOSED OPTIMIZATION TECHNIQUE
    5. 4. PROPOSED MULTI-PHASE OPF
    6. 5. TEST SYSTEM AND ANALYSIS TOOL
    7. 6. ANALYSIS STRUCTURE AND SOLVING ALGORITHM
    8. 7. RESULTS AND DISCUSSIONS
    9. 8. CONCLUSION
    10. REFERENCES
  14. Chapter 6: Hybridized Genetic Algorithm Based Machine Parameters Estimation for Direct Torque Control of 3 Phase Motor for Wind Energy Systems
    1. ABSTRACT
    2. INTRODUCTION
    3. SPACE VECTOR TRANSFORMATION
    4. ALPHA BETA TRANSFORMATION MATRIX
    5. CROSSOVER LOGIC
    6. IMPLEMENTATION OF PENALTY
    7. SIMULATION PARAMETERS
    8. REFERENCES
  15. Chapter 7: Performance Analysis of Unified Power Quality Controller for a Two Bus System with Different types of Loads
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. SYSTEM CONFIGURATION AND PRINCIPLE OF OPERATION
    4. 3. CONTROL ALGORITHM
    5. 4. SIMULATION RESULTS
    6. 5. CONCLUSION
    7. REFERENCES
  16. Chapter 8: Smart Grid
    1. ABSTRACT
    2. INTRODUCTION
    3. BACKGROUND: SMART GRID
    4. EMERGING TECHNOLOGIES IN SMART GRID & PROBLEMS ASSOCIATED WITH THEM
    5. SMART GRID: CHALLENGES TO BE REVIEWED
    6. TECHNOLOGIES TO OVERCOME CHALLENGES
    7. CONCLUSION
    8. REFERENCES
  17. Chapter 9: STATCOM Based Solid State Voltage Regulation for Isolated Self-Excited Induction Generator
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. FACTS CONTROLLERS
    4. 3. STATIC SERIES COMPENSATORS: SSSC AND TCSC
    5. 4. GENERAL NETWORK REPRESENTATION
    6. 5. VOLTAGE AND REACTIVE POWER CONTROL CONCEPT
    7. 6. SQUIRREL CAGE INDUCTION GENERATORS
    8. 7. LITERATURE REVIEW
    9. 8. MODELING OF STATCOM AND SIMULATION RESULTS
    10. 9. CONCLUSION
    11. REFERENCES
  18. Chapter 10: Artificial Neural Network (ANN) in Network Reconfiguration for Improvement of Voltage Stability
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. OVERVIEW OF VOLTAGE STABILITY ISSUES IN GENERAL
    4. 3. NETWORK RECONFIGURATION AND VOLTAGE STABILITY IMPROVEMENT
    5. 4. CONCEPT OF MANUAL NETWORK RECONFIGURATION TECHNIQUE THROUGH A MODIFIED IEEE 8- BUS SYSTEM
    6. 5. EFFECT OF RECONFIGURATION ON VOLTAGE STABILITY, ACTIVE AND REACTIVE POWER LOSS OF THE OVERALL SYSTEM
    7. 6. A TYPICAL CASE STUDY
    8. 7. APPLICATION OF ARTIFICIAL NEURAL NETWORK (ANN) IN NETWORK RECONFIGURATION FOR IMPROVEMENT OF VOLTAGE STABILITY
    9. 8. APPLICATION OF ANN IN VOLTAGE STABILITY ENHANCEMENT USING NETWORK RECONFIGURATION
    10. 9. TOPOLOGY OF THE ANN
    11. 10. CASE STUDY RESULTS AND INFERENCE
    12. 11. OTHER APPLICATIONS OF NETWORK RECONFIGURATION
    13. 12. PARALLEL NEURAL NETWORK TECHNIQUE IN ELECTRICAL ENGINEERING: NEURAL ENSEMBLES OR COMMITTEE MACHINES
    14. 13. CONCLUSION
    15. ACKNOWLEDGMENT
    16. REFERENCES
  19. Chapter 11: Global and Local Clustering-Based Regression Models to Forecast Power Consumption in Buildings
    1. ABSTRACT
    2. INTRODUCTION
    3. ANALYZED DATASETS
    4. UTILIZED TECHNIQUES
    5. EXPERIMENTAL EVALUATION
    6. RESULTS AND ANALYSIS
    7. CONCLUSION
    8. REFERENCES
  20. Chapter 12: Building Automation Systems
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. BACKGROUND
    4. 3. TECHNOLOGICAL STUDY
    5. 4. SOLUTIONS AND RECOMMENDATIONS
    6. 5. FUTURE RESEARCH DIRECTIONS
    7. 6. CONCLUSION
    8. ACKNOWLEDGMENT
    9. REFERENCES
  21. Chapter 13: Contemporary Energy Management Systems and Future Prospects
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. CLASSIFICATIONS OF EMS
    4. 3. REQUIREMENTS OF ENERGY MANAGEMENT SYSTEMS
    5. 4. REVIEW OF ENERGY MANAGEMENT SYSTEMS
    6. 5. ENERGY MANAGEMENT SYSTEM SOFTWARE
    7. 6. ENERGY MANAGEMENT SYSTEM CONSIDERATIONS
    8. 7. FEATURE COMPARISON OF POPULAR ENERGY MANAGEMENT SYSTEMS
    9. 8. ENERGY MANAGEMENT SYSTEMS STANDARDS
    10. 9. ENERGY MANAGEMENT SYSTEMS: EMERGING TRENDS
    11. 10. FUTURE RESEARCH AREAS
    12. 11. CONCLUSION
    13. REFERENCES
  22. Chapter 14: Energy Management in Cloud Computing
    1. ABSTRACT
    2. INTRODUCTION
    3. BACKGROUND
    4. FUTURE RESEARCH DIRECTIONS
    5. CONCLUSION
    6. REFERENCES
    7. KEY TERMS AND DEFINITIONS
  23. Chapter 15: Fuzzy Logic Based Approach for Power System Fault Section Analysis
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. LITERATURE REVIEW
    4. 3. TYPES OF FAULTS
    5. 4. THE PROTECTION SYSTEM
    6. 5. FAULT DETECTION AND CIRCUIT BREAKER STATUS
    7. 6. PROPOSED SCHEME
    8. 7. FAULT ISLAND IDENTIFICATION
    9. 8. FAULT SECTION IDENTIFICATION
    10. 9. ALGORITHM OF THE PROPOSED SCHEME AND FLOWCHART
    11. 10. THE TEST SYSTEM
    12. 11. CONCLUSION
    13. 12. FUTURE SCOPE
    14. REFERENCES
  24. Chapter 16: Parameter Estimation of an High Performance I.M. Drive for Sensorless Operation
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. LITERATURE REVIEW
    4. 3. DIRECT TORQUE CONTROLLED (DTC) IM DRIVE
    5. 4. OPERATING PRINCIPLE OF DIRECT TORQUE CONTROLLED IM DRIVE
    6. 5. MODELING OF SPEED CONTROLLERS
    7. 6. CONVENTIONAL PI CONTROL
    8. 7. FUZZY LOGIC CONTROL
    9. 8. SLIDING MODE CONTROL
    10. 9. MODELING OF TORQUE, FLUX AND SECTOR ESTIMATOR
    11. 10. TORQUE AND STATOR FLUX ESTIMATOR
    12. 11. RESULTS AND DISCUSSIONS
    13. 12. CONCLUSION
    14. REFERENCES
  25. Chapter 17: Restructuring Power Industry in India
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. POWER INDUSTRY IN INDIA
    4. 3. ISSUES IN INDIAN POWER SECTOR
    5. 4. RESTRUCTURING IN INDIA
    6. 5. SALIENT FEATURES OF THE ELECTRICITY ACT, 2003
    7. 6. OPEN ACCESS TO TRANSMISSION NETWORK
    8. 7. CONCLUSION
    9. REFERENCES
  26. Chapter 18: Application of Soft Computing Techniques in Power Engineering
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. DISCHARGE CONTROLLERS
    4. 3. PID CONTROL SCHEME
    5. 4. DESIGN OF REFERENCE SIGNAL ESTIMATOR
    6. 1.6. CONCLUSION
    7. 1.7. REFERENCES
  27. Chapter 19: Smart Grid and Cloud Computing
    1. ABSTRACT
    2. INTRODUCTION
    3. BACKGROUND
    4. CLOUD COMPUTING AND SMART GRID
    5. DEMAND RESPONSE IN CLOUD COMPUTING AND SMART GRID
    6. SCALABILITY USING DISTRIBUTED ALGORITHMS
    7. LOAD BALANCING IN SMART GRIDS USING CLOUD TECHNIQUES
    8. CONCLUSION
    9. REFERENCES
  28. Compilation of References
  29. About the Contributors