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Load Flow Analysis
22 Lessons-
StartDay 1 - Session 1 - Introduction to PSA
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StartDay 1 - Session 2 - Introduction to LFA& Standard IEEE 399 & IEEE 3002.2
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StartDay 2 - Session 1 - Modelling of Grid, Bus & Transmission line
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StartDay 2 - Session 2 - Introduction to Software & Ferranti Effect Simulation
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StartDay 3 - Session 1 - TL Ferranti effect Manual Calculation & Simulation
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StartDay 3 - Session 2 - Loss calculation (Part 1)
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StartDay 3 - Session 2 - Loss calculation (Part 2)
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StartDay 4 - Session 1 - Recap & Transformer Modelling
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StartDay 4 - Session 2 - Transformer Parallel Operation
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StartDay 5 - Session 1 - Transformer Tap Changer Settings
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StartDay 5 - Session 2 - Generator Capability Curve
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StartDay 6 - Session 1 - Generator Modelling & Simulation
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StartDay 6 - Session 2 - Generator Voltage Control Mode Simulation
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StartDay 7 - Session 1 - Generator PF & Mvar control Mode (Part 1)
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StartDay 7 - Session 1 - Generator PF & Mvar control Mode (Part 2)
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StartDay 7 - Session 2 - Generator PF & Mvar control Mode & Load Modelling
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StartDay 8 - Session 1 - ZIP Load Modelling
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StartDay 8 - Session 2 - Hands-on Session
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StartDay 9: Session 1 : Reactive Power Compensation
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StartDay 9 - Session 2 - Reactive power compensation Hands-on Training
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StartDay 10 - Session 1 - Inverter capability curve Hands-on training
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StartDay 10 - Session 2 - Inverter capability curve Hands-on training
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Short Circuit Analysis
16 Lessons-
StartDay 1 - Session 1 - Review of LFS, Introduction to SCA
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StartDay 1 - Session 2 - Grid bus fault current analysis
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StartDay 2 - Session 1 - Standards, Assumptions & Limitations, Grid modelling
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StartDay 2 - Session 2 - Grid Modelling Calculation
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StartDay 3 - Session 1 - Grid Modelling & Simulation
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StartDay 3 - Session 2 - Transformer Modelling Introduction
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StartDay 4 - Session 1 - Transformer SC Calculation
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StartDay 4 - Session 2 - Transformer winding configuration SCA
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StartDay 5 - Session 1 - Transformer winding configurations
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StartDay 5 - Session 2 - Transmission Line Modelling
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StartDay 6 - Session 1 - Generator SC Modelling
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StartDay 6 - Session 2 - Hands-on Training
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StartDay 7 - Session 1 - Inputs Required, Generator NGR & NGT grounding
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StartDay 7 - Session 2 - Earthing transformer modelling & Cable length variation for SCA
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StartDay 8 - Session 1 - Transformer impedance Analysis & Case Study
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StartDay 8 - Session 2 - Case Study SLD
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Transient Stability Analysis
9 Lessons-
StartDay 1 - Session 1 - Introduction to TSA, Power transfer equation, P - del curve
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StartDay 1 - Session 2 - Swing Equation
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StartDay 2 - Determination of Generator CCT & Load change Simulation
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StartDay 3 - Session 1 - Power Transfer Equation, P-del curve Part 1
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StartDay 3 - Session 1 - Power Transfer Equation, P-del curve Part 2
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StartDay 3 - Session 2 - Generator CCT analysis Part 1
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StartDay 3 - Session 2 - Generator CCT analysis Part 2
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StartDay 4 - Session 1 - Generator CCT & Frequency analysis
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StartDay 4 - Session 2 - Governor & AVR, Methods to improve TS
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Harmonic Analysis
7 Lessons-
StartDay 1: Introduction to Harmonics analysis Modelling of harmonic sources Balanced and unbalanced harmonic load flow.
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StartDay 2: Impact of source impedance and network impedance. Frequency sweep. STD IEEE 519 - Harmonic limits. Modelling of passive filter.
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StartDay 3: Recap of previous session Types of filters Modelling of filters Case study
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StartDay 3: Digsilent 3
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StartDay 4: Harmonic filter parameter calculation, K rated transformer, Harmonic simulation Handson
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StartDay 5: Recap of previous session, Modelling of active filter, Nortons equivalent impedance
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StartDay 6: Case study, Harmonic analysis handson
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Relay Coordination Study
15 Lessons-
StartDay 1: Introduction to relay coordination, Introduction to LV Protective devices.
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StartDay 2: LV protection coordination settings, LSIG setting calculation, Time and current tolerance in LV breakers.
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StartDay 3: Modelling of MCCB and ACB for LT motor protection coordination. LSIG setting calculation.
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StartDay 4: LV motor protection, Incomer and bus coupler coordination. LSIG setting calculation. Ground fault coordination.
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StartDay 5: LV incomer protection, Capacitor bank feeder protection, Transformer LV protection.
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StartDay 6: Need for over current and earth fault protection. Protection setting calculation of over current (50 &51 )and earth fault 50N, 51N for transformer feeder. Transformer LV to HV coordination.
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StartDay 6: RELAY COORDINATION
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StartDay 6: digsilent RC
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StartDay 7: Discussions on the Assignment, Introduction to Earth Fault Coordination
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StartDay 8: Introduction to directional relay, Need for directional relay
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StartDay 9: Discussions on the Assignment, Philosophy related to Earth Fault Coordination
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StartDay 10 : MV Coordination for Incomers, Bus-coupler, MV Coordination for Transformer Feeder
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StartDay 11: MV Coordination for Incomers, Bus-coupler, MV Coordination for Transformer Feeder - Session 02
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StartDay 12: Directional overcurrent protection settings, ETAP vs Digsilent simulation.
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StartDay 13: Directional over current protection in RMU system
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Unit Production
4 Lessons-
StartDay 1: ntroduction to Unit Protection, Protection Functions involved in UP ,Transformer Protection
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StartDay 2: Percentage Differential Protection, Design Considerations for the Transformer Differential Protection
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StartDay 3: Design Considerations for the Transformer Differential Protection, Manual Calculation for the Differential Protection
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StartDay 4: Slope Characteristics for Low Impedance differential, Manual Calculation for the differential protection
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