Power System Analysis and Design, SI Edition
Námskeið
- RT RAK1003 Raforkukerfi I
- RT RAK2003 Raforkukerfi II & RAF505G Greining raforkukerfa
- T-867-POSY Rekstur raforkukerfa
.
Ensk lýsing:
Today's readers learn the basic concepts of power systems as they master the tools necessary to apply these skills to real world situations with POWER SYSTEM ANALYSIS AND DESIGN, 6E. This new edition highlights physical concepts while also giving necessary attention to mathematical techniques. The authors develop both theory and modeling from simple beginnings so readers are prepared to readily extend these principles to new and complex situations.
Lýsing:
Examine the basic concepts behind today's power systems as well as the tools you need to apply your newly acquired skills to real-world situations with POWER SYSTEM ANALYSIS AND DESIGN, SI, 7th Edition. The latest updates throughout this new edition reflect the most recent trends in the field as the authors highlight key physical concepts with clear explanations of important mathematical techniques.
New co-author Adam Birchfield joins this prominent author team with fresh insights into the latest technological advancements. The authors develop theory and modeling from simple beginnings, clearly demonstrating how you can apply the principles you learn to new, more complex situations. New learning objectives and helpful case study summaries help focus your learning, while the updated PowerWorld® Simulation works seamlessly with this edition's content to provide hands-on design experience.
Annað
- Höfundar: J. Duncan Glover, Mulukutla S. Sarma, Thomas Overbye, Adam Birchfield
- Útgáfa:7
- Útgáfudagur: 2022-06-17
- Hægt að prenta út 2 bls.
- Hægt að afrita 2 bls.
- Format:Page Fidelity
- ISBN 13: 9780357676400
- Print ISBN: 9780357676196
- ISBN 10: 0357676408
Efnisyfirlit
- Contents
- Preface
- Preface to the SI Edition
- Digital Resources
- List of Symbols, Units, and Notation
- Chapter 1: Introduction
- Case Study: Transformation of the Grid
- 1.1 History of Electric Power Systems
- 1.2 Present and Future Trends
- 1.3 Electric Utility Industry Structure
- 1.4 Computers in Power System Engineering
- 1.5 Powerworld Simulator
- Chapter 2: Fundamentals
- Case Study: Investing for the Future
- 2.1 Phasors
- 2.2 Instantaneous Power in Single-Phase AC Circuits
- 2.3 Complex Power
- 2.4 Network Equations
- 2.5 Balanced Three-Phase Circuits
- 2.6 Power in Balanced Three-Phase Circuits
- 2.7 Advantages of Balanced Three-Phase versus Single-Phase Systems
- 2.8 Energy Conversion
- Chapter 3: Power Transformers
- Case Study: Transformer Innovation in a Changing Energy Landscape - Part I
- 3.1 The Ideal Transformer
- 3.2 Equivalent Circuits for Practical Transformers
- 3.3 The Per-Unit System
- 3.4 Three-Phase Transformer Connections and Phase Shift
- 3.5 Per-Unit Equivalent Circuits of Balanced Three-Phase Two-Winding Transformers
- 3.6 Three-Winding Transformers
- 3.7 Autotransformers
- 3.8 Transformers with Off-Nominal Turns Ratios
- Chapter 4: Transmission Line Parameters
- Case Study 1: Renewables, Resiliency Drive Transmission Upgrades
- Case Study 2: Greenlink Nevada to Drive Job Creation, Economic Recovery from Covid-19
- 4.1 Transmission Line Design Considerations
- 4.2 Resistance
- 4.3 Conductance
- 4.4 Inductance: Solid Cylindrical Conductor
- 4.5 Inductance: Single-Phase Two-Wire Line and Three-Phase Three-Wire Line with Equal Phase Spacing
- 4.6 Inductance: Composite Conductors, Unequal Phase Spacing, Bundled Conductors
- 4.7 Series Impedances: Three-Phase Line with Neutral Conductors and Earth Return
- 4.8 Electric Field and Voltage: Solid Cylindrical Conductor
- 4.9 Capacitance: Single-Phase, Two-Wire Line and Three-Phase, Three-Wire Line with Equal Phase Spaci
- 4.10 Capacitance: Stranded Conductors, Unequal Phase Spacing, Bundled Conductors
- 4.11 Shunt Admittances: Lines with Neutral Conductors and Earth Return
- 4.12 Electric Field Strength at Conductor Surfaces and at Ground Level
- 4.13 Parallel Circuit Three-Phase Lines
- Chapter 5: Transmission Lines: Steady-State Operation
- Case Study: Opportunities for Embedded High-Voltage Direct Current
- 5.1 Medium and Short Line Approximations
- 5.2 Transmission-Line Differential Equations
- 5.3 Equivalent pi Circuit
- 5.4 Lossless Lines
- 5.5 Maximum Power Flow
- 5.6 Line Loadability
- 5.7 Reactive Compensation Techniques
- Chapter 6: Power Flows
- Case Study: Xcel Energy Strengthens the Grid with Advanced SVCs
- 6.1 Direct Solutions to Linear Algebraic Equations: Gauss Elimination
- 6.2 Iterative Solutions to Linear Algebraic Equations: Jacobi and Gauss-Seidel
- 6.3 Iterative Solutions to Nonlinear Algebraic Equations: Newton-Raphson
- 6.4 The Power Flow Problem
- 6.5 Power Flow Solution by Gauss-Seidel
- 6.6 Power Flow Solution by Newton-Raphson
- 6.7 Control of Power Flow
- 6.8 Sparsity Techniques
- 6.9 Fast Decoupled Power Flow
- 6.10 The "DC" Power Flow
- 6.11 Power Flow Modeling of Wind and Solar Generation
- 6.12 Realistic and Large-Scale Power Flow Models
- Design Project 1: New Solar
- Design Project 1: Transmission System Design Costs
- Design Project 2: Electric Grid Voltage Control Design
- Design Project 3: Power Flow/Short Circuits
- Chapter 7: Power System Economics and Optimization
- Case Study: Electricity Markets in the United States
- 7.1 Generator and Load Economics
- 7.2 Economic Dispatch
- 7.3 Optimal Power Flow
- 7.4 Unit Commitment and Longer Term Optimization
- 7.5 Markets
- Chapter 8: Symmetrical Faults
- Case Study: Pumped Storage Hydro: Then and Now
- 8.1 Series R-L Circuit Transients
- 8.2 Three-Phase Short Circuit - Unloaded Synchronous Machine
- 8.3 Power System Three-Phase Short Circuits
- 8.4 Bus Impedance Matrix
- 8.5 Circuit Breaker and Fuse Selection
- Design Project 3 (Continued): Power Flow/Short Circits
- Chapter 9: Symmetrical Components
- Case Study: The Ups and Downs of Gravity Energy Storage
- 9.1 Definition of Symmetrical Components
- 9.2 Sequence Networks of Impedance Loads
- 9.3 Sequence Networks of Series Impedances
- 9.4 Sequence Networks of Three-Phase Lines
- 9.5 Sequence Netwoeks of Rotating Machines
- 9.6 Per-Unit Sequence Models of Three-Phase, Two-Winding Transformers
- 9.7 Per-Unit Sequence Models of Three-Phase, Three-Winding Transformers
- 9.8 Power in Sequence Networks
- Chapter 10: Unsymmetrical Faults
- Case Study 1: ABB Commissions Switchgear Installation with New Eco-Efficient Gas
- Case Study 2: Transforming the Transmission Industry: The Rapid Adoption of Green Gas for Grid (g3)
- Case Study 3: PG&E to Use SF6-Free Products from Siemens
- 10.1 System Representation
- 10.2 Single Line-to-Ground Fault
- 10.3 Line-to-Line Fault
- 10.4 Double Line-to-Ground Fault
- 10.5 Sequence Bus Impedance Matrices
- Design Project 3 (Continued): Power Flow/Short Circuits
- Design Project 4: Circuit Breaker Selection
- Chapter 11: System Protection
- Case Study: On Good Behavior
- 11.1 System Protection Components
- 11.2 Instrument Transformers
- 11.3 Overcurrent Relays
- 11.4 Radial System Protection
- 11.5 Reclosers, Fuses, and Sectionalizers
- 11.6 Directional Relays
- 11.7 Protection of a Two-Source System with Directional Relays
- 11.8 Zones of Protection
- 11.9 Line Protection with Impedance (Distance) Relays
- 11.10 Differential Relays
- 11.11 Bus Protection with Differential Relays
- 11.12 Transformer Protection with Differential Relays
- 11.13 Pilot Relaying
- 11.14 Numeric Relaying
- Chapter 12: Power System Stability
- Case Study: The Impact of Renewables on Operational Security
- 12.1 The Swing Equation
- 12.2 Simplified Synchronous Machine Model and System Equivalents
- 12.3 The Equal-Area Criterion
- 12.4 Numerical Integration of the Swing Equation
- 12.5 Multimachine Stability
- 12.6 A Two-Axis Synchronous Machine Model
- 12.7 Wind Turbine and Solar PV Machine Models
- 12.8 Load Models
- 12.9 Design Methods for Improving Power System Stability
- Chapter 13: Power System Controls
- Case Study: The Software-Defined Power Grid: How Software and Sensors Are Bringing Century-Old Grid
- 13.1 Generator-Voltage Control
- 13.2 Turbine-Governor Control
- 13.3 Load-Frequency Control
- 13.4 Power System Stabilizer Control
- Chapter 14: Transmission Lines: Transient Operation
- Case Study: Surge Arresters VariSTAR Station-Class Type AZE Surge Arresters for Systems through 345
- 14.1 Traveling Waves on Single-Phase Lossless Lines
- 14.2 Boundary Conditions for Single-Phase Lossless Lines
- 14.3 Bewley Lattice Diagram
- 14.4 Discrete-Time Models of Single-Phase Lossless Lines and Lumped RLC Elements
- 14.5 Lossy Lines
- 14.6 Multiconductor Lines
- 14.7 Power System Overvoltages
- 14.8 Insulation Coordination
- Chapter 15: Power Distribution
- Case Study: High-Frequency Power Electronics at the Grid Edge: A Bottom-Up Approach toward the Smart
- 15.1 Introduction to Distribution
- 15.2 Primary Distribution
- 15.3 Secondary Distribution
- 15.4 Transformers in Distribution Systems
- 15.5 Shunt Capacitors in Distribution Systems
- 15.6 Distribution Software
- 15.7 Distribution Reliability
- 15.8 Distribution Automation
- 15.9 Smart Grids
- Appendix
- Index
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- Gerð : 208
- Höfundur : 5715
- Útgáfuár : 2016
- Leyfi : 379