Power system analysis and design

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Hauptverfasser: Glover, J. Duncan ca. 20./21. Jh (VerfasserIn), Sarma, Mulukutla S. 1938- (VerfasserIn), Overbye, Thomas J. (VerfasserIn)
Format: Buch
Sprache:English
Veröffentlicht: Stamford, Conn. Cengage Learning 2012
Ausgabe:5. ed., SI ed.
Schlagworte:
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Datensatz im Suchindex

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adam_text CONTENTS Preface to the SI Edition xii Preface xiii List of Symbols, Units, and Notation xix CHAPTER I Introduction I Case Study: The Future Beckons: Will the Electric Power Industry Heed the Call? 2 1.1 History of Electric Power Systems 10 1.2 Present and Future Trends 17 1.3 Electric Utility Industry Structure 21 1.4 Computers in Power System Engineering 22 1.5 PowerWorld Simulator 24 CHAPTER 2 Fundamentals ЗІ Case Study: Making Microgrids Work 32 2.1 Phasors 46 2.2 Instantaneous Power in Single-Phase AC Circuits 2.3 Complex Power 53 2.4 Network Equations 58 2.5 Balanced Three-Phase Circuits 60 2.6 Power in Balanced Three-Phase Circuits 68 2.7 Advantages of Balanced Three-Phase Versus Single-Phase Systems 74 47 CHAPTER 3 Power Transformers 90 Case Study: PJM Manages Aging Transformer Fleet 91 3.1 The Ideal Transformer 96 3.2 Equivalent Circuits for Practical Transformers 102 3.3 The Per-Unit System 108 3.4 Three-Phase Transformer Connections and Phase Shift 3.5 Per-Unit Equivalent Circuits of Balanced Three-Phase Two-Winding Transformers 121 3.6 Three-Winding Transformers 126 3.7 Autotransformers 130 3.8 Transformers with Off-Nominal Turns Ratios 131 116 CHAPTER 4 Transmission Line Parameters 1 59 Case Study: Transmission Line Conductor Design Comes of Age 160 Case Study: Six Utilities Share Their Perspectives on Insulators 164 4.1 Transmission Line Design Considerations 169 4.2 Resistance 174 4.3 Conductance 177 4.4 Inductance: Solid Cylindrical Conductor 178 4.5 Inductance: Single-Phase Two-Wire Line and Three-Phase Three-Wire Line with Equal Phase Spacing 183 4.6 Inductance: Composite Conductors, Unequal Phase Spacing, Bundled Conductors 185 4.7 Series Impedances: Three-Phase Line with Neutral Conductors and Earth Return 193 4.8 Electric Field and Voltage: Solid Cylindrical Conductor 199 4.9 Capacitance: Single-Phase Two-Wire Line and Three-Phase Three-Wire Line with Equal Phase Spacing 201 4.10 Capacitance: Stranded Conductors, Unequal Phase Spacing, Bundled Conductors 204 4.11 Shunt Admittances: Lines with Neutral Conductors and Earth Return 207 4.12 Electric Field Strength at Conductor Surfaces and at Ground Level 212 4.13 Parallel Circuit Three-Phase Lines 215 CHAPTER 5 Transmission Lines: Steady-State Operation 233 Case Study: The ABCs of HVDC Transmission Technologies 234 5.1 Medium and Short Line Approximations 248 5.2 Transmission-Line Differential Equations 254 5.3 Equivalent π Circuit 260 5.4 Lossless Lines 262 5.5 Maximum Power Flow 271 5.6 Line Loadability 273 5.7 Reactive Compensation Techniques 277 CHAPTER 6 Power Flows 294 Case Study: Future Vision 295 Case Study: Characteristics of Wind Turbine Generators for Wind Power Plants 305 6.1 Direct Solutions to Linear Algebraic Equations: Gauss Elimination 311 6.2 Iterative Solutions to Linear Algebraic Equations: Jacobi and Gauss-Seidel 315 6.3 Iterative Solutions to Nonlinear Algebraic Equations: Newton-Raphson 321 6.4 The Power-Flow Problem 325 6.5 Power-Flow Solution by Gauss-Seidel 331 6.6 Power-Flow Solution by Newton-Raphson 334 6.7 Control of Power Flow 343 6.8 Sparsity Techniques 349 6.9 Fast Decoupled Power Flow 352 6.10 The DC Power Flow 353 6.11 Power-Flow Modeling of Wind Generation 354 Design Projects 1-5 366 CHAPTER 7 Symmetrical Faults 379 Case Study: The Problem of Arcing Faults in Low-Voltage Power Distribution Systems 380 7.1 Series R-L Circuit Transients 382 7.2 Three-Phase Short Circuit — Unloaded Synchronous Machine 385 7.3 Power System Three-Phase Short Circuits 389 7.4 Bus Impedance Matrix 392 7.5 Circuit Breaker and Fuse Selection 400 Design Project 4 (continued) 417 CHAPTERS Symmetrical Components 419 Case Study: Circuit Breakers Go High Voltage 421 8.1 Definition of Symmetrical Components 428 8.2 Sequence Networks of Impedance Loads 433 8.3 Sequence Networks of Series Impedances 441 8.4 Sequence Networks of Three-Phase Lines 443 8.5 Sequence Networks of Rotating Machines 445 8.6 Per-Unit Sequence Models of Three-Phase Two-Winding Transformers 451 8.7 Per-Unit Sequence Models of Three-Phase Three-Winding Transformers 456 8.8 Power in Sequence Networks 459 CHAPTER 9 Unsymmetrical Faults 47 1 Case Study: Fires at U.S. Utilities 472 9.1 System Representation 473 9.2 Single Line-to-Ground Fault 478 9.3 Line-to-Line Fault 483 9.4 Double Line-to-Ground Fault 485 9.5 Sequence Bus Impedance Matrices 492 Design Project 4 (continued) 512 Design Project 6 513 CHAPTER 10 System Protection 516 Case Study: The Future of Power Transmission 518 10.1 System Protection Components 525 10.2 Instrument Transformers 526 10.3 Overcurrent Relays 533 10.4 Radial System Protection 537 10.5 Reclosers and Fuses 541 10.6 Directional Relays 545 10.7 Protection of Two-Source System with Directional Relays 546 10.8 Zones of Protection 547 10.9 Line Protection with Impedance (Distance) Relays 551 10.10 Differential Relays 557 10.11 Bus Protection with Differential Relays 559 10.12 Transformer Protection with Differential Relays 560 10.13 Pilot Relaying 565 10.14 Digital Relaying 566 CHAPTER 11 Transient Stability 579 Case Study: Real-Time Dynamic Security Assessment 581 11.1 The Swing Equation 590 11.2 Simplified Synchronous Machine Model and System Equivalents 596 11.3 The Equal-Area Criterion 598 11.4 Numerical Integration of the Swing Equation 608 11.5 Multimachine Stability 613 11.6 A Two-Axis Synchronous Machine Model 621 11.7 Wind Turbine Machine Models 625 11.8 Design Methods for Improving Transient Stability 632 CHAPTER 12 Power System Controls 639 Case Study: Overcoming Restoration Challenges Associated with Major Power System Disturbances 642 12.1 Generator-Voltage Control 652 12.2 Turbine-Governor Control 657 12.3 Load-Frequency Control 663 12.4 Economic Dispatch 667 12.5 Optimal Power Flow 680 CHAPTER 1 3 Transmission Lines: Transient Operation 690 Case Study: VariSTAR® Type AZE Surge Arresters 691 Case Study: Change in the Air 695 13.1 Traveling Waves on Single-Phase Lossless Lines 707 13.2 Boundary Conditions for Single-Phase Lossless Lines 710 13.3 Bewley Lattice Diagram 719 13.4 Discrete-Time Models of Single-Phase Lossless Lines and Lumped RLC Elements 724 13.5 Lossy Lines 731 13.6 Multiconductor Lines 735 13.7 Power System Overvoltages 738 13.8 Insulation Coordination 745 CHAPTERS POWER DISTRIBUTION 757 Case Study: The Path of the Smart Grid 759 14.1 Introduction to Distribution 770 14.2 Primary Distribution 772 14.3 Secondary Distribution 780 14.4 Transformers in Distribution Systems 785 14.5 Shunt Capacitors in Distribution Systems 795 14.6 Distribution Software 800 14.7 Distribution Reliability 801 14.8 Distribution Automation 804 14.9 Smart Grids 807 Appendix 814 Index 818
any_adam_object 1
author Glover, J. Duncan ca. 20./21. Jh
Sarma, Mulukutla S. 1938-
Overbye, Thomas J.
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author_facet Glover, J. Duncan ca. 20./21. Jh
Sarma, Mulukutla S. 1938-
Overbye, Thomas J.
author_role aut
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author_sort Glover, J. Duncan ca. 20./21. Jh
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discipline Energietechnik, Energiewirtschaft
Elektrotechnik
Elektrotechnik / Elektronik / Nachrichtentechnik
edition 5. ed., SI ed.
format Book
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publishDate 2012
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publisher Cengage Learning
record_format marc
spellingShingle Glover, J. Duncan ca. 20./21. Jh
Sarma, Mulukutla S. 1938-
Overbye, Thomas J.
Power system analysis and design
Elektrische Energietechnik (DE-588)4113411-4 gnd
Elektrizitätsversorgungsnetz (DE-588)4121178-9 gnd
Datenverarbeitung (DE-588)4011152-0 gnd
subject_GND (DE-588)4113411-4
(DE-588)4121178-9
(DE-588)4011152-0
title Power system analysis and design
title_auth Power system analysis and design
title_exact_search Power system analysis and design
title_full Power system analysis and design J. Duncan Glover ; Mulukutla S. Sarma ; Thomas J. Overbye
title_fullStr Power system analysis and design J. Duncan Glover ; Mulukutla S. Sarma ; Thomas J. Overbye
title_full_unstemmed Power system analysis and design J. Duncan Glover ; Mulukutla S. Sarma ; Thomas J. Overbye
title_short Power system analysis and design
title_sort power system analysis and design
topic Elektrische Energietechnik (DE-588)4113411-4 gnd
Elektrizitätsversorgungsnetz (DE-588)4121178-9 gnd
Datenverarbeitung (DE-588)4011152-0 gnd
topic_facet Elektrische Energietechnik
Elektrizitätsversorgungsnetz
Datenverarbeitung
url http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025785818&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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