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Load Flow Analysis
21 Lessons-
Start"Load Flow Analysis with IEEE3002-2 and IEE399 Introduction to ETAP"
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Start"Modelling of Bus, Grid, Transmission line "
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Start"ETAP Modeling and Ferranti effect "
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StartFerranti effect calculation
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Start"surge impedance loading simulation with manual calculation Scenario Modelling "
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Start"Introduction of Transformer & its Standards Modelling of Transformer"
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Start"Transformer & its Standards Modelling of Transformer"
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StartTransformer tap settings
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Start"Transformer derating. Transformer paralleling conditions. "
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StartTransformer paralleling conditions.
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Start"Transformer paralleling ,Three winding modeling"
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StartGenerator modelling
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Start"operational modes of generator, AVR and governor modelling"
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Start"operational modes of generator, "
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StartSession 1: Multiple Generation modelling, load modelling,
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StartSession 2: Multiple Generation modelling, load modelling,
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StartDroop and Isochronous mode
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StartREACTIVE POWER COMPENSATION & POWER FACTOR CORRECTION
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StartModeling variable Frequencty Drive
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StartSolar PV
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Startsolar PV, case study
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Short Circuit Studies
16 Lessons-
StartDay 1: "Introduction to Short Circuit Analysis Effects of Short Circuit Causes of Faults Classification of Faults Objectives of Short Circuit study"
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StartDay 2: "Standard reference Modelling of Grid X/R value validation"
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StartDay 3: GRID Calculation , c factor
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StartDay 4: C Factor, Modelling and short circuit calculation of transmission line
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StartDay 5: "short circuit calculation of transmission line modelling and short circuit calculation of cabel"
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StartDay 6: "short circuit calculation of cabel Impact of Transformer winding configuration on short-circuit current"
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StartDay 7: "Impact of Transformer winding configuration on short-circuit current"
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StartDay 8: SHORT CIRCUIT CURRENT NATUR
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StartDay 9: "SHORT CIRCUIT CURRENT LIMITING STATIC LOAD ANDMOTOR LOAD"
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StartDay 10: Transformer winding configuration
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StartDay 11: All type of fault Calculations
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StartDay 12: All type of fault Calculations, fault contributions
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StartDay 13: NEED FOR GROUNDING
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StartDay 14: "NEED FOR SEQUENCE (SYMMETRICAL) COMPONENTS"
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StartDay 15: case study
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StartDay 16: Quiz,Revesion
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Motor Acceleration Study
8 Lessons-
StartDay 1: "Introduction to MOTOR ACCELERATION STUDY"
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StartDay 2: Need of Starters, Starting Torque Requirement
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StartDay 3: Static motor study Modelling
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StartDay 4: Static motor study Modelling
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StartDay 5: Static motor simulations
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StartDay 6: Static motor simulations, Dynamic moter starting
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StartDay 7: Dynamic moter starting simulation
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StartDay 8: Dynamic motor starting vfd vs DOL
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Relay coordination Study
14 Lessons-
StartDay 1: "Introduction to Protection in LV. Introduction to MCB"
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StartDay 2: MCB, MCCB, ACB, Thermal Magnetic Release
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StartDay 3: Electronic Release
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StartDay 4: solid state release TCC
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StartDay 5: Solid state release feature load ,no feature load
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StartDay 6: Introduction to MV and HV
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StartDay 7: Introduction to Relay
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StartDay 8: motor Setting calculations of (50 & 51)
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StartDay 9: No feature load 50&51 Protection
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StartDay 10: Protection Setting calculations of Over Current (50 & 51) and Earth FaultRelays (50N, 51N) for motor feeder
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StartDay 11: " Protection Setting calculations of Over Current (50 & 51) and Earth Fault Relays (50N,51N) for Bus coupler, Incomer, Tie feeder"
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StartDay 12: " Protection Setting calculations for Bus coupler, Incomer, Tie feeder. Directionl relay"
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StartDay 13: Directionl relay RMU
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StartDay 14: Directionl relay RMU
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Arc Flash Study
4 Lessons-
StartDay 1: introduction to Arc flash, standards, personal protective equipments
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StartDay 2: Standards, Fault clearing time, study case setting, label generation
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StartDay 3: Calculation of arc flash boundary, incident energy and arcing energy
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StartDay 4: Dc Arc Flash, Manual calculation of DC arc flash incident energy and boundary and MV arc flash and their standards, case study
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Transient stability
3 Lessons-
StartDay 1: Introduction of transient analysis, power transfer equation, Classification of Stability, Rotor angle stability.
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StartDay 2: Session1: Swing Equation, Power vs angle relationship, motor modelling
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StartDay 2: Session2: Generator Modelling, Droop and Isochronous mode, Critical Clearing Time
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Harmonic Analysis
4 Lessons-
StartDay1: Session1: Introduction to Power Quality issues, Harmonic Analysis.
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StartDay1: Session2: THD, TDD, IEEE 519-Voltage and current distortion limits, Impact of Capacitor Bank on THD.
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StartDay2: Session1: Modelling of Harmonic loads (WTG, VFD, Inverters, UPS)
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StartDay2: Session2: Modeling of Filter, Impact of source impedance, Needs of Filters, Passive Filter Design
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This course is not open for enrollment
CPT 285
Course Summary
Course Curriculum
malathi dhuraisamy
VASANTHAKUMARI
