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Power System Analysis


Description:
  • Series: McGraw-Hill Series in Electrical & Computer Engineering
  • Hardcover: 784 pages
  • Publisher: McGraw-Hill Science/Engineering/Math; 1 edition (January 1, 1994)
  • Language: English
  • ISBN-10: 0070612935
  • ISBN-13: 978-0070612938
  • Product Dimensions: 9.5 x 6.8 x 1.5 inches

This is a thoroughly revised version of the classical Power System Analysis text by the late Professor Stevenson. The new author, Professor Grainger, has made every effort to retain the flavor and clarity of the original text material. The text covers all classical power system material starting with: basic concepts, transformers, transmission line parameters & performance, network models, power flow solutions, 3-phase faults, symmetrical components and applications, economic operation and power system stability. Two brand new and highly readable chapters on contingency analysis and state estimation add value to the usefulness of this text. A superb solution manual is available for instructors. This text is admirably suited to power system analysis courses at senior undergraduate level and graduate level.
We, at the University of Calgary, have adopted this as the text for the 4th year power system course ENEL 587.

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Power System Analysis: Short-Circuit Load Flow and Harmonics


Description:
Author: J.C. Das - 17-4-2002
CRC Press

Featuring extensive calculations and examples, this reference discusses theoretical and practical aspects of short-circuit currents in ac and dc systems, load flow, and harmonic analyses to provide a sound knowledge base for modern computer-based studies that can be utilized in real-world applications. Presenting more than 2300 figures, tables, and equations, the author explores matrix methods for network solutions and includes load flow and optimization techniques. He discusses ac and dc short-circuit systems calculations in accordance with standards set by the American National Standards Institute (ANSI) and the International Electrotechnical Commission (IEC) .

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Power System Transients: Parameter Determine


Description:
Despite the powerful numerical techniques and graphical user interfaces available in present software tools for power system transients, a lack of reliable tests and conversion procedures generally makes determination of parameters the most challenging part of creating a model.
Illustrates Parameter Determination for Real-World Applications
Geared toward both students and professionals with at least some basic knowledge ofelectromagnetic transient analysis, Power SystemTransients: Parameter Determination summarizescurrent procedures and techniques for thedetermination of transient parameters for six basicpower components: overhead line, insulated cable,transformer, synchronous machine, surge arrester,and circuit breaker. An expansion on paperspublished in the IEEE Transactions on PowerDelivery, this text helps those using transientsimulation tools (e.g., EMTP-like tools) to select the optimal determination method for their particularmodel, and it addresses commonly encounteredproblems, including:
  • Lack of information
  • Testing setups and measurements that are not recognized in international standards
  • Insufficient studies to validate models, mainly those used in high-frequency transients
  • Current built-in models that do not cover all requirements

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Power System Stability and Control



(the 3rd edition)


Description: 

Part of the third edition of The Electric Power Engineering Handbook, Power System Stability and Control offers conveniently focused and detailed information covering all aspects concerning power system protection, dynamics, stability, operation, and control. Contributed by worldwide leaders under the guidance of one of the world's most respected and accomplished authorities in power engineering, this carefully crafted reference provides convenient access to both overviews and detailed information on a diverse array of topics.
Updates to nearly every existing chapter keep thisbook at the forefront of developments in modernpower systems, reflecting international standards,practices, and technologies. New sections wereadded to keep pace with new developments andrapid growth in the areas of small signal stabilityand power system oscillations, power systemstability controls, and dynamic modeling of powersystems. This edition also features review of awide area dynamics analysis carried out in 2005 forthe western interconnection of the North American power system. Other highly active areascontributing updated information includetransformer and transmission line protection,optimal power flow, and security analysis.
Remaining relevant in a rapidly evolving field, Power System Stability and Control helps you ensure safe, economical, and high-quality power delivery in today's high-demand and highly dynamic environment.

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Power System State Estimation: Theory and Implementation

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Offering an up-to-date account of the strategies utilized in state estimation of electric power systems, this text provides a broad overview of power system operation and the role of state estimation in overall energy management. It uses an abundance of examples, models, tables, and guidelines to clearly examine new aspects of state estimation, the testing of network observability, and methods to assure computational efficiency.
Includes numerous tutorial examples that fully analyze problems posed by the inclusion of current measurements in existing state estimators and illustrate practicalsolutions to these challenges.
Written by two expert researchers in the field, Power System State Estimation extensively details topics never before covered in depth in any other text, including novel robust state estimation methods, estimation of parameter and topology errors, and the use of ampere measurements for state estimation. It introduces various methods and computational issues involved in the formulation and implementation of the weighted least squares (WLS) approach, presents statistical tests for the detection and identification of bad data in system measurements, and reveals alternative topological and numerical formulations for the network observability problem.


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ELECTRICAL ENGINEERING know it all

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Overview

The Newnes Know It All Series takes the best of what our authors have written to create hard-working desk references that will be an engineer's first port of call for key information, design techniques and rules of thumb. Guaranteed not to gather dust on a shelf!
Electrical engineers need to master a wide area of topics to excel. The Electrical Engineering Know It All covers every angle including Real-World Signals and Systems, Electromagnetics, and Power systems.
• A 360-degree view from our best-selling authors
• Topics include digital, analog, and power electronics, and electric circuits
• The ultimate hard-working desk reference; all the essential information, techniques and tricks of the trade in one volume

Table of Contents

Chapter 1 An Introduction to Electric Circuits
Chapter 2 Resistance and Resistivity
Chapter 3 Series and parallel networks
Chapter 4 Capacitors and Inductors
Chapter 5 D.c. circuit theory
Chapter 6 Alternating voltages and currents
Chapter 7 Complex Numbers
Chapter 8 Transients and Laplace transforms
Chapter 9 Frequency Domain Circuit Analysis
Chapter 10 Digital Electronincs
Chapter 11 Analog Electronics
Chapter 12 Circuit simulation
Chapter 13 Interfacing
Chapter 14 Microcontrollers and Microprocessors
Chapter 15 Power Electronics
Chapter 16 Signals and Signal Processing
Chapter 17 Filter Design
Chapter 18 Control and Instrumentation Systems
Chapter 19 Communications Systems
Chapter 20 Principles of Electromagnetics
Chapter 21 MAGNETIC FIELDS
Chapter 22 Electromagnetic Transients and EMI
Chapter 23 Traveling Wave Effects
Chapter 24 Transformers
Chapter 25 Electromagnetic Machines
Chapter 26 Electromagnetic Compatibility (EMC)
Chapter 27 Power Generation
Chapter 28 Power Transmission and Distribution
Chapter 29 Power Quality
Appendix A General reference
Appendix B Differential Equations
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MODERN POWER ELECTRONICS AND AC DRIVERS

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