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Electrical Energy Systems 2nd Edition by Mohamed El Hawary ISBN 135108853X 9781351088534

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Electrical Energy Systems Second Edition Mohamed E. El-Hawary Digital Instant Download

Author(s): Mohamed E. El-Hawary
ISBN(s): 9781351071635, 1351071637
Edition: 2nd ed
File Details: PDF, 14.14 MB
Year: 2008
Language: english
SKU: EB-6991932 Category: Tag:

Electrical Energy Systems 2nd Edition by Mohamed E. El-Hawary – Ebook PDF Instant Download/Delivery: 135108853X, 9781351088534

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Product details:

ISBN 10: 135108853X

ISBN 13: 9781351088534

Author:  Mohamed E. El-Hawary 

Electrical Energy Systems 2nd Edition: We are witness to the emergence a new generation of power engineers, focused on providing electric energy in a deregulated environment. To educate this new breed, textbooks must take a comprehensive approach to electrical energy and encourage problem solving using modern tools. Updated to reflect recent trends and new areas of emphasis, Mohamed El-Hawary’s Electrical Energy Systems, Second Edition shifts the teaching of electrical energy and electric power toward a sustainable and reliable paradigm.

Discussions ranging from the technical aspects of generation, transmission, distribution, and utilization to power system components, theory, protection, and the energy control center culminate in the most modern and complete introduction to effects of deregulating electric power systems, blackouts and their causes, and minimizing their effects. The author prepares students for real-world challenges by including numerous examples, problems, and MATLAB scripts, teaching students to use industry-standard problem-solving tools. This edition also features an entirely new chapter on the present and future of electric energy systems, which highlights new challenges facing system designers and operators in light of modern events and transformations impacting the field. Providing convenience for instructors in addition to a thoroughly modern education for students, Electrical Energy Systems, Second Edition sets a new benchmark for the education of electric power engineering focused on sustainable development and operation of new power systems.

 

Electrical Energy Systems 2nd Edition Table of contents:

Chapter 1 – Introduction

  • 1.1 A Brief History of Electric Power Systems
  • 1.2 The Structure of the Power System
  • 1.3 Outline of the Text

Chapter 2 – Basics of Electric Energy System Theory

  • 2.1 Introduction
  • 2.2 Concepts of Power in Alternating Current Systems
  • 2.3 Three-Phase Systems
  • 2.4 The Per Unit System
  • 2.5 Electromagnetism and Electromechanical Energy Conversion
  • 2.6 Permeability and Magnetic Field Intensity
  • 2.7 Flux Linkages, Induced Voltages, Inductance, and Energy
  • 2.8 Hysteresis Loop
  • 2.9 Eddy Current and Core Losses
  • 2.10 Energy Flow Approach
  • 2.11 Multiply Excited Systems
  • 2.12 Doubly Excited Systems
  • 2.13 Salient-Pole Machines
  • 2.14 Round or Smooth Air-Gap Machines
  • 2.15 Machine-Type Classification
  • 2.16 P-Pole Machines
  • 2.17 Power System Representation
  • Problems

Chapter 3 – Power Generation and the Synchronous Machine

  • 3.1 Introduction
  • 3.2 The Synchronous Machine: Preliminaries
  • 3.3 Synchronous Machine Fields
  • 3.4 A Simple Equivalent Circuit
  • 3.5 Principal Steady-State Characteristics
  • 3.6 Power-Angle Characteristics and the Infinite Bus Concept
  • 3.7 Accounting for Saliency
  • 3.8 Salient-Pole Machine Power Angle Characteristics
  • Problems

Chapter 4 – The Transformer

  • 4.1 Introduction
  • 4.2 General Theory of Transformer Operation
  • 4.3 Transformer Connections
  • Problems

Chapter 5 – Electric Power Transmission

  • 5.1 Introduction
  • 5.2 Electric Transmission Line Parameters
  • 5.3 Line Inductance
  • 5.4 Line Capacitance
  • 5.5 Two-Port Networks
  • 5.6 Transmission Line Models
  • Problems

Chapter 6 – Induction and Fractional Horsepower Motors

  • 6.1 Introduction
  • 6.2 Three-Phase Induction Motors
  • 6.3 Torque Relations
  • 6.4 Classification of Induction Motors
  • 6.5 Rotating Magnetic Fields in Single-Phase Induction Motors
  • 6.6 Equivalent Circuits for Single-Phase Induction Motors
  • 6.7 Power and Torque Relations
  • 6.8 Starting Single-Phase Induction Motors
  • 6.9 Single-Phase Induction Motor Types
  • Problems

Chapter 7 – Faults and Protection of Electric Energy Systems

  • 7.1 Introduction
  • 7.2 Transients during a Balanced Fault
  • 7.3 The Method of Symmetrical Components
  • 7.4 Sequence Networks
  • 7.5 Line-to-Ground Fault
  • 7.6 Double Line-to-Ground Fault
  • 7.7 Line-to-Line Fault
  • 7.8 The Balanced Three-Phase Fault
  • 7.9 System Protection, An Introduction
  • 7.10 Protective Relays
  • 7.11 Transformer Protection
  • 7.12 Transmission Line Protection
  • 7.13 Impedance-Based Protection Principles
  • 7.14 Computer Relaying
  • Problems

Chapter 8 – The Energy Control Center

  • 8.1 Introduction
  • 8.2 Overview of EMS Functions
  • 8.3 Power Flow Control
  • 8.4 Power Flow
  • 8.5 Stability Considerations
  • 8.6 Power System State Estimation
  • 8.7 Power System Security
  • 8.8 Contingency Analysis
  • 8.9 Optimal Preventive and Corrective Actions
  • 8.10 Dynamic Security Analysis

Chapter 9 – The Present and Future of Electric Energy Systems

  • 9.1 Introduction
  • 9.2 Challenges Facing the System
  • 9.3 Blackouts and Their Impact
  • 9.4 Mitigating and Coping

 

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