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" Power system transient analysis : "
Eiichi Haginomori, Tadashi Koshiduka , Junichi Arai, Hisatochi Ikeda
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BL
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640990
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dltt
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| Main Entry
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Haginomori, Eiichi
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| Title & Author
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Power system transient analysis : : theory and practice using simulation programs (ATP-EMTP) /\ Eiichi Haginomori, Tadashi Koshiduka , Junichi Arai, Hisatochi Ikeda
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| Page. NO
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1 online resource
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| ISBN
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9781118737477
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: 1118737474
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: 9781118737491
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: 1118737490
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9781118737453
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1118737458
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9781118737538 (cloth)
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Includes bibliographical references and index
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| Contents
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Standard Course-Fundamentals and Typical Phenomena -- Fundamentals of EMTP -- Function and Composition of EMTP -- Lumped Parameter RLC -- Transmission Line -- Transformer -- Nonlinear Element -- Arrester -- Switch -- Voltage and Current Sources -- Generator and Rotating Machine -- Control -- Support Routines -- Features of the Calculation Method -- Formulation of the Main Circuit -- Calculation in TACS -- Features of EMTP -- References -- Modeling of System Components -- Overhead Transmission Lines and Underground Cables -- Overhead Transmission Line-Line Constants -- Underground Cables-Cable Parameters -- Transformer -- Single-Phase Two-Winding Transformer -- Single-Phase Three-Winding Transformer -- Three-Phase One-Core Transformer-Three Legs or Five Legs -- Frequency and Transformer Modeling -- Transient Currents in Power Systems -- Short-Circuit Currents -- Transformer Inrush Magnetizing Current -- Transient Inrush Currents in Capacitive Circuits -- Example of ATPDraw Sheets-Data3-02.acp -- Reference -- Transient at Current Breaking -- Short-Circuit Current Breakings -- Capacitive Current Switching -- Switching of Capacitive Current of a No-Load Overhead Transmission Line -- Switching of Capacitive Current of a Cable -- Switching of Capacitive Current of a Shunt Capacitor Bank -- Inductive Current Switching -- Current Chopping Phenomenon -- Reignition -- High-Frequency Extinction and Multiple Reignition -- TRV with Parallel Capacitance in SLF Breaking -- Current Injection to Various Circuit Elements -- TRV Calculation, Including ITRV-Current Injection is Applied for TRV Calculation -- 550kV Line Normal Breaking -- 300kV, 150MVA Shunt Reactor Current Breaking-Current Chopping-Reignition-HF Current Interruption -- References -- Black Box Arc Modeling -- Mayr Arc Model -- Analysis of Phenomenon of Short-Line Fault Breaking -- Analysis of Phenomenon of Shunt Reactor Switching -- Cassie Arc Model -- Analysis of Phenomenon of Current Zero Skipping -- Mayr Arc Model Calculating SLF Breaking, 300kV, 50kA, L90 Condition -- Zero Skipping Current Breaking Near Generator-Fault Current Lasting -- Zero Skipping Current Breaking Near Generator-Dynamic Arc Introduced, Still Nonbreaking -- Typical Power Electronics Circuits in Power Systems -- General -- HVDC Converter/Inverter Circuits -- Static Var Compensator/Thyristor-Controlled Inductor -- PWM Self-Communicated Type Inverter Applying the Triangular Carrier Wave Shape Principle-Applied to SVG (Static Var Generator) -- Example of ATPDraw Picture -- Reference -- Advanced Course-Special Phenomena and Various Applications -- Special Switching -- Transformer-Limited Short-Circuit Current Breaking -- Transformer Winding Response to Very Fast Transient Voltage -- Transformer Magnetizing Current under Geomagnetic Storm Conditions -- Four-Armed Shunt Reactor for Suppressing Secondary Arc in Single-Pole Rapid Reclosing -- Switching Four-Armed Shunt Reactor Compensated Transmission Line -- References -- Synchronous Machine Dynamics -- Synchronous Machine Modeling and Machine Parameters -- Some Basic Examples -- No-Load Transmission Line Charging -- Power Flow Calculation -- Sudden Short-Circuiting -- Transient Stability Analysis Applying the Synchronous Machine Model -- Classic Analysis (Equal-Area Method) and Time Domain Analysis (EMTP) -- Detailed Transients by Time Domain Analysis: ATP-EMTP -- Field Excitation Control -- Back-Swing Phenomenon -- Short-Circuit Phenomena Observation in d-q Domain Coordinate -- Starting as an Induction Motor -- Modeling by the No. 19 Universal Machine -- Example of ATPDraw Picture File: Draw8-11 l.acp (Figure D8.1). -- References -- Induction Machine, Doubly Fed Machine, Permanent Magnet Machine -- Induction Machine (Cage Rotor Type) -- Machine Data for EMTP Calculation -- Zero Starting -- Mechanical Torque Load Application -- Multimachines -- Motor Terminal Voltage Change -- Driving by Variable Voltage and Frequency Source (VWF) -- Doubly Fed Machine -- Operation Principle -- Steady-State Calculation -- Flywheel Generator Operation -- Permanent Magnet Machine -- Zero Starting (Starting by Direct AC Voltage Source Connection) -- Calculation of Transient Phenomena -- Doubly Fed Machine Vector Diagrams -- Example of ATPDraw Picture -- Machine Drive Applications -- Small-Scale System Composed of a Synchronous Generator and Induction Motor -- Initialization -- Induction Motor Starting -- Application of AYR -- Inverter-Controlled WVF Starting -- Cycloconverter -- Cycloconverter-Driven Synchronous Machine -- Application of Sudden Mechanical Load -- Quick Starting of a Cycloconverter-Driven Synchronous Motor -- Comparison with the Inverter-Driven System -- Flywheel Generator: Doubly Fed Machine Application for Transient Stability Enhancement -- Initialization -- Flywheel Activity in Transient Stability Enhancement -- Active/Reactive Power Effect -- Discussion -- Example of ATPDraw Picture -- Reference
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| Subject
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Transients (Electricity)
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| Dewey Classification
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621.319/21
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| LC Classification
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TK3226
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| Added Entry
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Koshiduka, Tadashi
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Arai, Junichi,1932-
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Ikeda, Hisatochi
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Ohio Library and Information Network.
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