Instruction Manual for Power System Analysis and Design 6th Edition by Duncan Glover, Thomas Overbye, Mulukutla Sarma ISBN 1305632133 9781305632134

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ISBN 10: 1305632133
ISBN 13: 9781305632134
Author: Duncan Glover, Thomas Overbye, Mulukutla Sarma

Learn the basic concepts of power systems along with the tools you need 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 that you can readily extend these principles to new and complex situations. Software tools, including PowerWorld® Simulation, and the latest content throughout this edition aid you with design issues while introducing you to the most recent trends in the field today.

Power System Analysis and Design 6th Table of contents:

Chapter 1: Introduction

• History of Electric Power Systems: Traces the development and evolution of electric power systems.

• Present and Future Trends: Discusses the current state and potential future developments in the electric power industry.

• Electric Utility Industry Structure: Describes how the electric utility industry is organized.

• Computers in Power System Engineering: Explores the role of computational tools and techniques in power systems.

• PowerWorld Simulator: Introduces PowerWorld Simulator, a tool for simulating power system behavior.

Chapter 2: Fundamentals

• Phasors and Power in AC Circuits: Provides a fundamental understanding of phasors, real power, reactive power, and the concepts of power in AC circuits.

• Balanced Three-Phase Circuits: Focuses on the analysis and characteristics of balanced three-phase systems, including Y and Δ connections and the power calculations for such systems.

• Advantages of Balanced Three-Phase Systems: Discusses the superiority of balanced three-phase systems over single-phase systems.

Chapter 3: Power Transformers

• Ideal and Practical Transformers: Analyzes the ideal transformer and equivalent circuits for practical transformers.

• Three-Phase and Autotransformers: Explores three-phase transformer connections, autotransformers, and other specialized transformer configurations.

• The Per-Unit System: Introduces the per-unit system as a method for simplifying calculations in power systems.

Chapter 4: Transmission Line Parameters

• Transmission Line Design: Discusses factors affecting transmission line design, such as conductors, insulators, and environmental considerations.

• Transmission Line Parameters: Detailed treatment of transmission line parameters, including resistance, inductance, capacitance, and electric field strength.

• Shunt Admittances and Parallel Circuit Lines: Explores the effects of shunt admittances and the behavior of parallel circuit lines.

Chapter 5: Transmission Lines: Steady-State Operation

• Transmission Line Models: Introduces medium and short line approximations, differential equations, and the π circuit for transmission lines.

• Lossless Lines and Surge Impedance: Focuses on the behavior of lossless transmission lines, surge impedance loading, and the maximum power flow.

• Reactive Compensation: Discusses techniques to improve voltage profiles and system stability via reactive compensation.

Chapter 6: Power Flows

• Power Flow Solutions: Covers direct and iterative methods (e.g., Gauss-Seidel and Newton-Raphson) for solving power flow problems.

• Economic Dispatch: Discusses the optimization of power generation, including the effect of inequality constraints, transmission losses, and other unit types.

• Optimal Power Flow: Focuses on the optimization of power flow for economic and reliable operation.

Chapter 7: Symmetrical Faults

• Three-Phase Short Circuits: Analyzes the impact of symmetrical faults, particularly three-phase short circuits.

• Circuit Breaker Selection: Focuses on the selection of circuit breakers and fuses to handle fault conditions.

Chapter 8: Symmetrical Components

• Symmetrical Components Theory: Introduces the concept of symmetrical components and their use in analyzing unbalanced systems.

• Sequence Networks: Discusses sequence networks for impedance loads, lines, and rotating machines.

Chapter 9: Unsymmetrical Faults

• Types of Faults: Covers different types of unsymmetrical faults like line-to-ground, line-to-line, and double line-to-ground faults.

• Sequence Bus Impedance Matrices: Focuses on fault analysis using sequence networks and bus impedance matrices.

Chapter 10: System Protection

• System Protection Components: Introduces components like instrument transformers and overcurrent relays.

• Relay Types and Protection Zones: Discusses various relay types, protection schemes, and zones of protection, including bus and transformer protection.

Chapter 11: Transient Stability

• Swing Equation: Explains the swing equation for transient stability analysis.

• Stability Criteria: Discusses methods like the equal-area criterion and numerical integration for transient stability analysis.

• Improving Transient Stability: Provides design methods for improving system stability during transients.

Chapter 12: Power System Controls

• Voltage and Frequency Control: Covers generator-voltage control, turbine-governor control, and load-frequency control.

• Economic Dispatch Coordination: Discusses the coordination of economic dispatch with load-frequency control.

Chapter 13: Transmission Lines: Transient Operation

• Traveling Waves and Boundary Conditions: Focuses on the behavior of traveling waves on lossless and lossy lines.

• Power System Overvoltages: Discusses lightning, switching surges, and power frequency overvoltages, and their impact on power systems.

• Insulation Coordination: Provides guidance on insulation requirements to withstand overvoltages.

Chapter 14: Power Distribution

• Introduction to Distribution Systems: Introduces various types of distribution systems like primary radial, loop, and network systems.

• Distribution Transformers: Focuses on the role of transformers in distribution systems.

• Smart Grids: Discusses emerging technologies like distribution automation and smart grids, and their impact on power distribution.

Appendix

• Additional resources, formulas, and technical references related to the study of power systems.

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