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دانلود کتاب The Electric Power Engineering Handbook
دانلود کتاب کتابچه راهنمای مهندسی برق
مشخصات کتاب
The Electric Power Engineering Handbook
ویرایش: 3
نویسندگان: Leonard L. Grigsby
سری:
ISBN (شابک) : 9780415898447, 1315222361
ناشر: CRC Press
سال نشر: 2012
تعداد صفحات: 2965
زبان: English
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود)
حجم فایل: 248 مگابایت
قیمت کتاب (تومان) : 82,000
در صورت تبدیل فایل کتاب The Electric Power Engineering Handbook به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.
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توضیحاتی درمورد کتاب به خارجی
فهرست مطالب
Volume 01 Front Cover Contents Preface Editor Contributors Chapter 1 - The Per-Unit System Chapter 2 - Symmetrical Components for Power System Analysis Chapter 3 - Power Flow Analysis Chapter 4 - Fault Analysis in Power Systems Chapter 5 - Computational Methods for Electric Power Systems Chapter 6 - Characteristics of Lightning Strokes Chapter 7 - Overvoltages Caused by Direct Lightning Strokes Chapter 8 - Overvoltages Caused by Indirect Lightning Strokes Chapter 9 - Switching Surges Chapter 10 - Very Fast Transients Chapter 11 - Transmission System Transients: Grounding Chapter 12 - Transient Recovery Voltage Chapter 13 - Surge Arresters Chapter 14 - Insulation Coordination Chapter 15 - Planning Environments Chapter 16 - Short-Term Load and Price Forecasting with Artificial Neural Networks* Chapter 17 - Transmission Plan Evaluation: Assessment of System Reliability Chapter 18 - Power System Planning Chapter 19 - Power System Reliability Chapter 20 - Probabilistic Methods for Planning and Operational Analysis Chapter 21 - Engineering Principles of Electricity Pricing Chapter 22 - Business Essentials Chapter 23 - Power Semiconductor Devices Chapter 24 - Uncontrolled and Controlled Rectifiers Chapter 25 - Inverters Chapter 26 - Active Filters for Power Conditioning Chapter 27 - FACTS Controllers Chapter 28 - Power Electronics for Renewable Energy Back Cover Volume 02 Front Cover Contents Preface Editor Contributors Chapter 1 - Theory and Principles Chapter 2 - Power Transformers Chapter 3 - Distribution Transformers Chapter 4 - Phase-Shifting Transformers Chapter 5 - Rectifier Transformers Chapter 6 - Dry-Type Transformers Chapter 7 - Instrument Transformers Chapter 8 - Step-Voltage Regulators Chapter 9 - Constant-Voltage Transformers Chapter 10 - Transformers for Wind Turbine Generators and Photovoltaic Applications Chapter 11 - Reactors Chapter 12 - Insulating Media Chapter 13 - Electrical Bushings Chapter 14 - Tap Changers and Smart Intelligent Controls Chapter 15 - Loading and Thermal Performance Chapter 16 - Transformer Connections Chapter 17 - Transformer Testing Chapter 18 - Load-Tap-Change Control and Transformer Paralleling Chapter 19 - Power Transformer Protection Chapter 20 - Causes and Effects of Transformer Sound Levels Chapter 21 - Transient-Voltage Response of Coils and Windings Chapter 22 - Transformer Installation and Maintenance Chapter 23 - Problem and Failure Investigation Chapter 24 - On-Line Monitoring of Liquid-Immersed Transformers Chapter 25 - U.S. Power Transformer Equipment Standards and Processes Back Cover Volume 03 Front Cover Contents Preface Editor Contributors Chapter 1 - Wind Power Chapter 2 - Photovoltaic Fundamentals Chapter 3 - Advanced Energy Technologies Chapter 4 - Water Chapter 5 - Hydroelectric Power Generation Chapter 6 - Synchronous Machinery Chapter 7 - Thermal Generating Plants Chapter 8 - Distributed Utilities Chapter 9 - Concept of Energy Transmission and Distribution Chapter 10 - Transmission Line Structures Chapter 11 - Insulators and Accessories Chapter 12 - Transmission Line Construction and Maintenance Chapter 13 - Insulated Power Cables Used in Underground Applications Chapter 14 - Transmission Line Parameters Chapter 15 - Sag and Tension of Conductor Chapter 16 - Corona and Noise Chapter 17 - Geomagnetic Disturbances and Impacts upon Power System Operation Chapter 18 - Lightning Protection Chapter 19 - Reactive Power Compensation Chapter 20 - Environmental Impact of Transmission Lines Chapter 21 - Transmission Line Reliability Methods Chapter 22 - High-Voltage Direct Current Transmission System Chapter 23 - Transmission Line Structures Chapter 24 - Advanced Technology High-Temperature Conductors Chapter 25 - Power System Loads Chapter 26 - Distribution System Modeling and Analysis Chapter 27 - Power System Operation and Control Chapter 28 - Hard to Find Information (on Distribution System Characteristics and Protection)* Chapter 29 - Real-Time Control of Distributed Generation Chapter 30 - Distribution Short-Circuit Protection Chapter 31 - Metering of Electric Power and Energy Chapter 32 - Basic Electric Power Utilization: Loads, Load Characterization and Load Modeling Chapter 33 - Electric Power Utilization: Motors Chapter 34 - Linear Electric Motors Chapter 35 - Introduction Chapter 36 - Wiring and Grounding for Power Quality Chapter 37 - Harmonics in Power Systems Chapter 38 - Voltage Sags Chapter 39 - Voltage Fluctuations and Lamp Flicker in Power Systems Chapter 40 - Power Quality Monitoring Back Cover Volume 04 Front Cover Contents Preface Editor Contributors Chapter 1 - How a Substation Happens Chapter 2 - Gas-Insulated Substations Chapter 3 - Air-Insulated Substations: Bus/Switching Configurations Chapter 4 - High-Voltage Switching Equipment Chapter 5 - High-Voltage Power Electronic Substations Chapter 6 - Interface between Automation and the Substation Chapter 7 - Substation Integration and Automation Chapter 8 - Oil Containment* Chapter 9 - Community Considerations* Chapter 10 - Animal Deterrents/Security Chapter 11 - Substation Grounding Chapter 12 - Direct Lightning Stroke Shielding of Substations* Chapter 13 - Seismic Considerations Chapter 14 - Substation Fire Protection Chapter 15 - Substation Communications Chapter 16 - Physical Security of Substations Chapter 17 - Cyber Security of Substation Control and Diagnostic Systems Chapter 18 - Gas-Insulated Transmission Line Chapter 19 - Substation Asset Management Chapter 20 - Station Commissioning and Project Closeout Chapter 21 - Energy Storage Chapter 22 - Role of Substations in Smart Grids Back Cover Volume 05 Front Cover Contents Preface Editor Contributors Chapter 1 - Transformer Protection Chapter 2 - The Protection of Synchronous Generators Chapter 3 - Transmission Line Protection Chapter 4 - System Protection Chapter 5 - Digital Relaying Chapter 6 - Use of Oscillograph Records to Analyze System Performance Chapter 7 - Systems Aspects of Large Blackouts Chapter 8 - Power System Stability Chapter 9 - Transient Stability Chapter 10 - Small-Signal Stability and Power System Oscillations Chapter 11 - Voltage Stability Chapter 12 - Direct Stability Methods Chapter 13 - Power System Stability Controls Chapter 14 - Power System Dynamic Modeling Chapter 15 - Wide-Area Monitoring and Situational Awareness Chapter 16 - Assessment of Power System Stability and Dynamic Security Performance Chapter 17 - Power System Dynamic Interaction with Turbine Generators Chapter 18 - Wind Power Integration in Power Systems Chapter 19 - Flexible AC Transmission Systems (FACTS) Chapter 20 - Energy Management Chapter 21 - Generation Control: Economic Dispatch and Unit Commitment Chapter 22 - State Estimation Chapter 23 - Optimal Power Flow Chapter 24 - Security Analysis Back Cover
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