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1867 مرتبه مشاهده شده
Electric distribution systems
Sallam, A. A. (Abdelhay A.).
- ISBN:9780470276822
- Call Number : TK 3001 .S325 2011
- Main Entry: Sallam, A. A. (Abdelhay A.).
- Title:Electric distribution systems / Abdelhay A. Sallam, Om P. Malik.
- Publisher:Hoboken, N.J : Wiley-IEEE Press, 2010.
- Physical Description:xxii, 552 p.: ill.; 25 cm
- Series:Ieee press series on power engineering; 45
- Notes:"Also in electronic format is available"
- Notes:Includes bibliographical references and index
- Subject:Electric power distribution.
Electric distribution systemsمحتواي کتاب
- ELECTRIC DISTRIBUTION SYSTEMS
- CONTENTS
- PREFACE
- ACKNOWLEDGMENTS
- PART I: FUNDAMENTAL CONCEPTS
- CHAPTER 1: MAIN CONCEPTS OF ELECTRIC DISTRIBUTION SYSTEMS
- CHAPTER 2: LOAD DEMAND FORECASTING
- 2.1 INTRODUCTION
- 2.2 IMPORTANT FACTORS FOR FORECASTS
- 2.3 FORECASTING METHODOLOGY
- 2.4 SPATIAL LOAD FORECASTING ( SLF )
- 2.5 END - USE MODELING
- 2.6 SPATIAL LOAD FORECAST METHODS
- PART II: PROTECTION AND DISTRIBUTION SWITCHGEAR
- CHAPTER 3: EARTHING OF ELECTRIC DISTRIBUTION SYSTEMS
- 3.1 BASIC OBJECTIVES
- 3.2 EARTHING ELECTRIC EQUIPMENT
- 3.2.1 General Means
- 3.2.2 Substation Earthing
- 3.2.2.1 Step and Touch Voltage Regulations
- 3.2.2.2 The Human Factor
- 3.2.2.3 Measuring and Controlling Earth Resistance
- 3.2.2.4 Substation Earthing Mats
- 3.2.2.5 Design of Substation Earthing Mats to Meet the Step and Touch Voltage Regulations
- 3.2.2.6 Design of Substation Earthing Mats Using Computer Algorithms
- 3.3 SYSTEM EARTHING
- 3.4 MV EARTHING SYSTEMS
- 3.5 EARTHING SYSTEMS IN LV DISTRIBUTION NETWORKS
- CHAPTER 4: SHORT - CIRCUIT STUDIES
- 4.1 INTRODUCTION
- 4.2 SHORT - CIRCUIT ANALYSIS
- 4.2.1 Nature of Short - Circuit Currents
- 4.2.2 Calculation of Short - Circuit Current
- 4.2.2.1 Symmetrical Three - Phase Short Circuit
- 4.2.2.2 Unsymmetrical Short Circuits
- 4.2.2.3 Sequence - Impedance Networks
- 4.2.2.4 Line - to - Earth Fault (L - E Fault)
- 4.2.2.5 Line - to - Line Fault (L - L Fault)
- 4.2.2.6 Double Line - to - Earth Fault (2L - E Fault)
- 4.2.2.7 Calculation of Minimum Short - Circuit Current in LV Distributio Networks
- CHAPTER 5: PROTECTION OF ELECTRIC DISTRIBUTION SYSTEMS
- CHAPTER 6: DISTRIBUTION SWITCHGEAR
- 6.1 NEED FOR SWITCHGEAR
- 6.2 SWITCHGEAR LAYOUT
- 6.3 DIMENSIONING OF SWITCHGEAR INSTALLATIONS
- 6.3.1 Dimensioning of Insulation
- 6.3.2 Insulation Coordination
- 6.3.3 Dimensioning of Bar Conductors for Mechanical Short - Circuit Strength
- 6.3.4 Mechanical Short - Circuit Stresses on Cables and Cable Fittings
- 6.3.5 Dimensioning for Thermal Short - Circuit Strength
- 6.3.6 Dimensioning for Continuous Current Rating
- 6.4 CIVIL CONSTRUCTION REQUIREMENTS
- 6.5 MV SWITCHGEAR DEVICES
- 6.6 LV SWITCHGEAR DEVICES
- 6.7 PROTECTION CLASSES
- 6.8 SPECIFICATIONS AND IMPLEMENTATION OF EARTHING
- 6.9 SAFETY AND SECURITY OF INSTALLATIONS
- 6.10 ASSESSMENT OF SWITCHGEAR
- 6.11 STEPS FOR INSTALLING SWITCHGEAR
- 6.12 ARC FLASH HAZARDS
- 6.12.6 Selection of Calculation Method
- 6.12.7 Mitigation of Arc Flash Hazards
- CHAPTER 3: EARTHING OF ELECTRIC DISTRIBUTION SYSTEMS
- PART III: POWER QUALITY
- CHAPTER 7: ELECTRIC POWER QUALITY
- CHAPTER 8: VOLTAGE VARIATIONS
- CHAPTER 9: POWER FACTOR IMPROVEMENT
- CHAPTER 10: HARMONICS IN ELECTRIC DISTRIBUTION SYSTEMS
- CHAPTER 11: HARMONICS EFFECT MITIGATION
- 11.1 INTRODUCTION
- 11.2 FIRST CLASS OF SOLUTIONS
- 11.3 SECOND CLASS OF SOLUTIONS
- 11.4 THIRD CLASS OF SOLUTIONS
- 11.5 SELECTION CRITERION
- 11.6 CASE STUDIES
- PART IV: MANAGEMENT AND MONITORING
- CHAPTER 12: DEMAND - SIDE MANAGEMENT AND ENERGY EFFICIENCY
- 12.1 OVERVIEW
- 12.2 DSM
- 12.3 NEEDS TO APPLY DSM
- 12.4 MEANS OF DSM PROGRAMS
- 12.5 INTERNATIONAL EXPERIENCE WITH DSM
- 12.6 POTENTIAL FOR DSM APPLICATION
- 12.7 THE DSM PLANNING PROCESS
- 12.8 EXPECTED BENEFITS OF MANAGING DEMAND
- 12.9 ENERGY EFFICIENCY
- 12.10 SCENARIOS USED FOR ENERGY - EFFICIENCY APPLICATION
- 12.11 ECONOMIC BENEFITS OF ENERGY EFFICIENCY
- 12.12 APPLICATION OF EFFICIENT TECHNOLOGY
- CHAPTER 13: SCADA SYSTEMS AND SMART GRID VISION
- CHAPTER 12: DEMAND - SIDE MANAGEMENT AND ENERGY EFFICIENCY
- PART V: DISTRIBUTED GENERATION
- CHAPTER 14: DISTRIBUTED GENERATION
- 14.1 POWER SYSTEMS AND DISTRIBUTED GENERATION ( DG )
- 14.2 PERFORMANCE OF DISTRIBUTED GENERATORS
- 14.3 CASE STUDY
- 14.3.1 Distribution Generation Drivers
- 14.3.2 Potential Benefits of DG on Increased Electric System Reliability
- 14.3.3 Potential Benefits of DG in Reducing Peak Power Requirements
- 14.3.4 Potential Benefits of DG from Ancillary Services
- 14.3.5 Value of Power Quality Improvements
- 14.3.6 Technical Specifications of DG and Utility Grid Interconnection
- 14.3.7 Planning Process
- CHAPTER 14: DISTRIBUTED GENERATION
- REFERENCES
- INDEX