How to Get the Westinghouse Transmission and Distribution Reference Book for Free: A Comprehensive Guide
Westinghouse Transmission and Distribution Reference Book Download
If you are an electrical engineer or a student who wants to learn more about the transmission and distribution of electric power, you might be interested in downloading the Westinghouse Transmission and Distribution Reference Book. This book is a classic reference that covers the basic principles and practices of power system engineering. It was first published in 1928 by the Westinghouse Electric Corporation, one of the leading manufacturers of electrical equipment in the world. The book has been updated several times over the years, with the latest edition being published in 1999. In this article, we will tell you what the book is about, why it is useful, and how you can download it for free.
Westinghouse Transmission And Distribution Reference Book Download
What is the Westinghouse Transmission and Distribution Reference Book?
The Westinghouse Transmission and Distribution Reference Book is a comprehensive guide that covers all aspects of power system engineering, from generation to consumption. It consists of five chapters that deal with the fundamentals of electricity, transmission lines, transformers, substations, and distribution systems. Each chapter contains detailed explanations, diagrams, tables, formulas, examples, and problems. The book also includes appendices that provide additional information on units, symbols, standards, codes, data, and references.
Why is it useful for electrical engineers and students?
The Westinghouse Transmission and Distribution Reference Book is useful for electrical engineers and students because it provides a solid foundation for understanding and designing power systems. It covers both the theoretical and practical aspects of power system engineering, with an emphasis on real-world applications. The book also reflects the latest developments and trends in the field, such as renewable energy sources, smart grids, distributed generation, power quality, and reliability. The book is suitable for both self-study and classroom use, as it offers clear explanations, illustrative examples, and challenging problems.
How to download it for free?
If you want to download the Westinghouse Transmission and Distribution Reference Book for free, you can visit this website: https://archive.org/details/WestinghouseTransmissionAndDistributionReferenceBook/page/n5/mode/2up. This website allows you to view or download the book in various formats, such as PDF, EPUB, Kindle, or TXT. You can also browse through the book online or print it out if you prefer. The website also provides other related books and documents that you might find interesting.
Main Features of the Westinghouse Transmission and Distribution Reference Book
Chapter 1: Fundamentals of Electricity
Basic concepts and definitions
This chapter introduces the basic concepts and definitions of electricity, such as voltage, current, resistance, impedance, reactance, capacitance, inductance, power factor, frequency, phase, and polarity. It also explains the difference between alternating current (AC) and direct current (DC), and the advantages and disadvantages of each. It also describes the common sources of electricity, such as batteries, generators, and solar cells.
Electrical circuits and laws
This chapter explains the basic elements and types of electrical circuits, such as series, parallel, and combination circuits. It also discusses the fundamental laws and principles that govern the behavior of electrical circuits, such as Ohm's law, Kirchhoff's laws, Thevenin's theorem, Norton's theorem, superposition theorem, and maximum power transfer theorem. It also shows how to apply these laws and principles to solve simple and complex circuit problems.
Power and energy
This chapter defines the concepts of power and energy in electrical systems, and how they are measured and calculated. It also distinguishes between real power, reactive power, apparent power, and complex power, and how they affect the efficiency and performance of power systems. It also introduces the concepts of energy conversion, conservation, and storage.
Chapter 2: Transmission Lines
Line parameters and models
This chapter describes the physical characteristics and parameters of transmission lines, such as resistance, inductance, capacitance, conductance, and leakage. It also explains how to model transmission lines using equivalent circuits, such as the lumped parameter model, the distributed parameter model, the short line model, the medium line model, and the long line model. It also shows how to calculate the line parameters using various methods, such as geometric mean distance (GMD), geometric mean radius (GMR), Carson's equations, and Bessel's functions.
Line performance and losses
This chapter analyzes the performance and losses of transmission lines under different operating conditions. It discusses the factors that affect the voltage regulation, efficiency, stability, and capacity of transmission lines. It also explains how to compensate for the voltage drop, power loss, and reactive power consumption of transmission lines using devices such as shunt capacitors, series capacitors, shunt reactors, series reactors, synchronous condensers, static VAR compensators (SVCs), static synchronous compensators (STATCOMs), flexible AC transmission systems (FACTS), and high-voltage direct current (HVDC) transmission systems.
Line protection and control
This chapter describes the protection and control schemes for transmission lines to prevent or minimize faults and disturbances. It explains the types and causes of faults on transmission lines, such as short circuits, open circuits, lightning strikes, and switching surges. It also discusses the methods and devices for detecting, locating, isolating, and clearing faults on transmission lines, such as relays, circuit breakers, fuses, reclosers, and fault indicators. It also covers the techniques and equipment for controlling the voltage, current, frequency, and power flow on transmission lines, such as tap changers, phase shifters, load tap changers (LTCs), and automatic voltage regulators (AVRs).
Chapter 3: Transformers
Transformer types and construction
This chapter introduces the transformer types and construction. It explains the basic principle and operation of transformers, which are devices that transfer electrical energy from one circuit to another by electromagnetic induction. It also describes the main components and features of transformers, such as cores, windings, insulation, cooling systems, and accessories. It also classifies transformers according to their functions, applications, and configurations, such as power transformers, distribution transformers, instrument transformers, autotransformers, isolation transformers, and three-phase transformers.
Transformer operation and testing
This chapter analyzes the transformer operation and testing. It discusses the equivalent circuit and phasor diagram of transformers, and how they are used to calculate the performance parameters of transformers, such as voltage ratio, current ratio, turns ratio, impedance ratio, efficiency, and regulation. It also explains how to test transformers for various purposes, such as routine tests, type tests, special tests, and acceptance tests. It also describes the common tests performed on transformers, such as open-circuit test, short-circuit test, polarity test, insulation test, and impedance test.
Transformer applications and ratings
This chapter explores the transformer applications and ratings. It illustrates the various applications of transformers in power systems, such as step-up transformers, step-down transformers, voltage regulators, phase converters, harmonic filters, Article with HTML formatting (continued) Distribution system operation and maintenance
This chapter discusses the distribution system operation and maintenance. It explains how to operate distribution systems under normal and abnormal conditions, such as switching operations, load balancing, voltage control, power factor correction, islanding, and restoration. It also describes how to maintain distribution systems to ensure their performance and longevity, such as inspection, testing, cleaning, lubrication, repair, and replacement of distribution equipment and devices. It also covers the safety and environmental aspects of distribution system operation and maintenance, such as preventing accidents, injuries, fires, outages, noise, pollution, and vandalism.
Distribution system reliability and quality
This chapter evaluates the distribution system reliability and quality. It defines reliability as the ability of a distribution system to supply electric power to consumers without interruption or degradation. It also defines quality as the degree of conformity of the supplied electric power to the desired characteristics, such as voltage magnitude, frequency, waveform, and harmonic content. It also explains how to measure and improve the reliability and quality of distribution systems using various indices, methods, and techniques, such as reliability indices (SAIDI, SAIFI, CAIDI, MAIFI), outage analysis (root cause analysis, fault location, isolation, and service restoration), power quality analysis (voltage sag/swell/flicker/interruption/harmonics/transients), power quality improvement devices (voltage regulators, capacitors, filters, active power filters, uninterruptible power supplies, and custom power devices).
In conclusion, the Westinghouse Transmission and Distribution Reference Book is a valuable resource for electrical engineers and students who want to learn more about the transmission and distribution of electric power. The book covers the basic principles and practices of power system engineering in a comprehensive and clear manner. The book also reflects the latest developments and trends in the field of power system engineering. The book can be downloaded for free from this website: https://archive.org/details/WestinghouseTransmissionAndDistributionReferenceBook/page/n5/mode/2up. We hope you enjoyed reading this article and found it informative and useful.
Here are some frequently asked questions about the Westinghouse Transmission and Distribution Reference Book:
Who wrote the Westinghouse Transmission and Distribution Reference Book?
The Westinghouse Transmission and Distribution Reference Book was written by a team of experts from the Westinghouse Electric Corporation, a leading manufacturer of electrical equipment in the world. The book was first published in 1928 and has been updated several times over the years by different authors.
What is the latest edition of the Westinghouse Transmission and Distribution Reference Book?
The latest edition of the Westinghouse Transmission and Distribution Reference Book is the 15th edition, which was published in 1999. The 15th edition contains 752 pages and includes new topics such as renewable energy sources, smart grids, distributed generation, power quality, and reliability.
How can I get a hard copy of the Westinghouse Transmission and Distribution Reference Book?
If you want to get a hard copy of the Westinghouse Transmission and Distribution Reference Book, you can order it online from various websites, such as Amazon, eBay, or AbeBooks. You can also check your local library or bookstore for availability.
What are some other books similar to the Westinghouse Transmission and Distribution Reference Book?
Some other books similar to the Westinghouse Transmission and Distribution Reference Book are:
Power System Engineering: Planning, Design, and Operation of Power Systems and Equipment by Juergen Schlabbach et al.
Electric Power Systems: A Conceptual Introduction by Alexandra von Meier.
Electric Power Distribution Engineering by Turan Gonen.
Power System Analysis by John Grainger Jr. and William Stevenson Jr.
Power System Analysis and Design by J. Duncan Glover et al.
How can I contact the authors or publishers of the Westinghouse Transmission and Distribution Reference Book?
If you have any questions or comments about the Westinghouse Transmission and Distribution Reference Book, you can contact the authors or publishers through their official websites or email addresses. The Westinghouse Electric Corporation is now part of the Toshiba Group, and its website is https://www.westinghousenuclear.com/. The email address for customer service is firstname.lastname@example.org.