Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Auteur(s) : Sallam, Abdelhay A.
Malik, Om P.
Titre(s) : Electric distribution systems [Texte électronique] / Abdelhay A. Sallam, Om P. Malik
Édition : 2nd ed.
Publication : Hoboken : Wiley-IEEE press, copyright 2019
Description matérielle : 1 online resource
Collection : IEEE press series on power engineering ; 92
Lien à la collection : IEEE series on power engineering (Online)
Note(s) : Bibliogr. p. 589-600
"Electricity distribution is the penultimate stage in the delivery of electricity
to end users. The only book that deals with the key topics of interest to distribution
system engineers, Electric Distribution Systems presents a comprehensive treatment
of the subject with an emphasis on both the practical and academic points of view.
Reviewing traditional and cutting-edge topics, the text is useful to practicing engineers
working with utility companies and industry, undergraduate graduate and students,
and faculty members who wish to increase their skills in distribution system automation
and monitoring." ; "A comprehensive treatment of electric distribution systems is
given in the book. Although a few books that cover specific topics in more depth are
available, there is hardly any book that deals with the key topics of interest to
distribution system engineers. It introduces these topics from two points of view:
1- The practical point of view by providing practical examples and the problems which
can be met. 2- The academic point of view where the analysis and various techniques
used for distribution system planning are explained. Therefore, the major outstanding
feature of this book is a combination of practical and academic explanation of its
contents. Another outstanding feature is a collection of the traditional and recent
topics of distribution systems in one book"
Sujet(s) : Électricité -- Distribution
Indice(s) Dewey :
621.319 (23e éd.) = Transport de l'électricité
Identifiants, prix et caractéristiques : ISBN 9781119509332. - ISBN 1119509335. - ISBN 9780470276822 (erroné)
Identifiant de la notice : ark:/12148/cb45815565x
Notice n° :
FRBNF45815565
(notice reprise d'un réservoir extérieur)
Table des matières : Preface xi ; Acknowledgments xiii ; PART I FUNDAMENTAL CONCEPTS ; CHAPTER 1 INTRODUCTION
3 ; 1.1 Introduction and Background 3 ; 1.2 Power System Structure 3 ; 1.3 Distribution
Level 5 ; 1.4 General 7 ; CHAPTER 2 DISTRIBUTION SYSTEM STRUCTURE 9 ; 2.1 Distribution
Voltage Levels 9 ; 2.2 Distribution System Configuration 9 ; 2.3 General Comments
22 ; CHAPTER 3 DISTRIBUTION SYSTEM PLANNING 23 ; 3.1 Duties of Distribution System
Planners 23 ; 3.2 Factors Affecting the Planning Process 25 ; 3.3 Planning Objectives
31 ; 3.4 Solutions for Meeting Load Forecasts 37 ; CHAPTER 4 LOAD FORECASTING 41
; 4.1 Introduction 41 ; 4.2 Important Factors for Forecasts 42 ; 4.3 Forecasting
Methodology 43 ; 4.4 Spatial Load Forecasting (SLF) 56 ; 4.5 End-Use Modeling 64
; 4.6 Spatial Load Forecast Methods 65 ; PART II PROTECTION AND SWITCHGEAR ; CHAPTER
5 EARTHING OF ELECTRIC DISTRIBUTION SYSTEMS 75 ; 5.1 Basic Objectives 75 ; 5.2 Earthing
Electrical Equipment 76 ; 5.3 System Earthing 93 ; 5.4 MV Earthing Systems 99 ;
5.5 Earthing Systems in LV Distribution Networks 104 ; CHAPTER 6 SHORT-CIRCUIT STUDIES
111 ; 6.1 Introduction 111 ; 6.2 Short-Circuit Analysis 113 ; CHAPTER 7 PROTECTION:
CURRENT-BASED SCHEMES 163 ; 7.1 Introduction 163 ; 7.2 Types of Relay Construction
166 ; 7.3 Overcurrent Protection 171 ; 7.4 Directional Protection 187 ; 7.5 Differential
Protection 193 ; CHAPTER 8 PROTECTION: OTHER SCHEMES 207 ; 8.1 Overvoltage Protection
207 ; 8.2 Thermal Protection 220 ; 8.3 Reclosers, Sectionalizers, Fuses 223 ; CHAPTER
9 SWITCHGEAR DEVICES 235 ; 9.1 Need for Switchgear 235 ; 9.2 MV Switchgear Devices
237 ; 9.3 LV Switchgear Devices 244 ; 9.4 Protection Classes 250 ; 9.5 Specifications
and Implementation of Earthing 251 ; 9.6 Assessment of Switchgear 253 ; 9.7 Safety
and Security of Installations 255 ; 9.8 Application Trends in MV Switchgear 256
; CHAPTER 10 SWITCHGEAR INSTALLATION 261 ; 10.1 Steps for Installing Switchgear 261
; 10.2 Switchgear Layout 262.
10.3 Dimensioning of Switchgear Installations 264 ; 10.4 Civil Construction Requirements
275 ; 10.5 ARC-Flash Hazards 282 ; PART III POWER QUALITY ; CHAPTER 11 ELECTRIC
POWER QUALITY 297 ; 11.1 Overview 297 ; 11.2 Power Quality Problems 298 ; 11.3
Cost of Power Quality 304 ; 11.4 Solutions of Power Quality Problems 310 ; 11.5
Solution Cycle for Power Quality Problems 317 ; CHAPTER 12 VOLTAGE VARIATIONS 321
; 12.1 Voltage Quality 321 ; 12.2 Methods of Voltage Drop Reduction 329 ; 12.3 Voltage
Sag Calculations 345 ; 12.4 Estimation of Distribution Losses 356 ; CHAPTER 13 POWER
FACTOR IMPROVEMENT 361 ; 13.1 Background 361 ; 13.2 Shunt Compensation 365 ; 13.3
Need for Shunt Compensation 366 ; 13.4 An Example 368 ; 13.5 How to Determine Compensation
370 ; CHAPTER 14 HARMONICS IN ELECTRIC DISTRIBUTION SYSTEMS 379 ; 14.1 What Are
Harmonics? 379 ; 14.2 Sources of Harmonics 384 ; 14.3 Disturbances Caused by Harmonics
391 ; 14.4 Principles of Harmonic Distortion Indications and Measurement 396 ; 14.5
Frequency Spectrum and Harmonic Content 398 ; 14.6 Standards and Recommendations
400 ; CHAPTER 15 HARMONICS EFFECT MITIGATION 403 ; 15.1 Introduction 403 ; 15.2
First Class of Solutions 403 ; 15.3 Second Class of Solutions 404 ; 15.4 Third Class
of Solutions 406 ; 15.5 Selection Criteria 409 ; 15.6 Case Studies 409 ; PART IV
MANAGEMENT AND AUTOMATION ; CHAPTER 16 DEMAND-SIDE MANAGEMENT AND ENERGY EFFICIENCY
431 ; 16.1 Overview 431 ; 16.2 DSM 432 ; 16.3 Needs to Apply DSM 433 ; 16.4 Means
of DSM Programs 434 ; 16.5 International Experience with DSM 437 ; 16.6 Potential
for DSM Application 438 ; 16.7 The DSM Planning Process 439 ; 16.8 Expected Benefits
of Managing Demand 444 ; 16.9 Energy Efficiency 444 ; 16.10 Scenarios Used for Energy-Efficiency
Application 445 ; 16.11 Economic Benefits of Energy Efficiency 445 ; 16.12 Application
of Efficient Technology 445 ; CHAPTER 17 SCADA SYSTEMS 465 ; 17.1 Introduction 465
; 17.2 Definitions 469.
17.3 SCADA Components 470 ; 17.4 SCADA Systems Architectures 473 ; 17.5 SCADA Applications
480 ; 17.6 SCADA and Grid Modernization 484 ; PART V DISTRIBUTED ENERGY RESOURCES
AND MICROGRIDS ; CHAPTER 18 DISTRIBUTED GENERATION 489 ; 18.1 Power Systems and
Distributed Generation 489 ; 18.2 Performance of Distributed Generators 493 ; 18.3
Case Study 518 ; CHAPTER 19 ELECTRICAL ENERGY STORAGE 535 ; 19.1 Introduction 535
; 19.2 Electrical Energy Storage 535 ; 19.3 Role of Electrical Energy Storage 538
; 19.4 Types of EES Systems 540 ; 19.5 Energy Storage Application 550 ; CHAPTER
20 MICROGRIDS AND SMART GRIDS 553 ; 20.1 Background 553 ; 20.2 MG Benefits 555
; 20.3 MG Operation 556 ; 20.4 Challenges 556 ; 20.5 Handling the Challenges 557
; 20.6 Control Methodology 558 ; 20.7 Case Study 560 ; 20.8 Protection for MGs 570
; 20.9 Concluding Remarks on MGs 572 ; 20.10 Smart Grids 572 ; APPENDIX A DATA OF
MICROGRID COMPONENTS 581 ; APPENDIX B MATLAB SIMULINK MODELS 583 ; References 589
; Index 601.