Power system Bootcamp

Burraq Engineering Solutions is a company that provides Power systems Boot camp services. They specialize in the design, installation, maintenance, and repair of energy systems for industrial and commercial clients. Their services can include the installation of generators, transformers, transmission lines, substations, and switchboards, as well as the integration of renewable energy sources such as solar and wind into the power system Boot camp training. They also provide services such as load flow studies, short circuit analysis, and protection coordination studies to ensure the reliability, stability, and safety of power systems. They provide services to a wide range of industries, including construction, food, manufacturing, oil and gas, energy, and water treatment. A Power system Boot camp system course is a network of electrical components and equipment used to generate, transmit and distribute electricity to end users. It includes various components such as generators (e.g. coal, natural gas, nuclear, hydro, wind, solar), transformers, transmission lines, substations, and distribution units. The Power system can be divided into three main components: power generation, transmission, and distribution. Power generation training is the process of producing electricity, usually at a power plant. Transmission is the process of transmitting electricity over long distances, usually through high-voltage power lines. Distribution is the process of delivering electricity to end users, usually at a lower voltage.

Power system bootcamp Training courses in Lahore

Power system Bootcamp

  • 50,000/-
  • Course Duration 3 Months
  • Online Session
  • On Campus Lecture + Practicle
  • Video Lecture Available
  • Urdu & English
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Power system Boot camp course outline

  • ETAP Software Installation
  • Introduction to ETAP Software
  • How to Create a New Project in ETAP
  • Introduction to ETAP Database
  • How to Load the existing Project
  • ETAP toolbar introduction
  • One Line Diagram in ETAP
  • Create your first one line diagram
  • Composite Network in ETAP
  • Customize the library for relay breaker and fuse
  • Creating a template and importing it to one line diagram
  • Load Flow Study Evaluation and Result AnallysisRun Load Analysis on Single Line Diagram
  • Run Load Analysis on Single Line Diagram
  • Equipment Evaluation
  • Voltage Drop Calculations
  • Bus Voltages, Cable voltage Drops
  • Bus Under voltage
  • Cable overload
  • Cable Sizing Studies
  • Transformer Overload
  • Transformer Sizing
  • Alert View in ETAP
  • Critical and Marginal Conditions in ETAP
  • Arc Flash and Short Circuit Analysis
  • Run Short circuit and Arc Flash Analysis
  • Short Circuit Current Evaluation
  • How to Fault a bus
  • Edit Study Case
  • Motor Start Analysis
  • Setting up the Motor Rating
  • Motor Start static
  • Starting Current and its Plot in ETAP
  • Motor Start Dynamic
  • Setting up the Motor Parameters
  • Setting up the Motor Inertia, Load
  • Motor Start Dynamic using VFD
  • Protective Device Coordination Study
  • Breaker Settings
  • CT settings
  • Over current Relay Settings
  • Sequence of Operation
  • How to generate report on ETAP
  • Introduction to ETAP Toolbar
  • Introduction to course
  • Rating Components
  • Presentation Toolbars
  • Harmonic Studies
  • Transient stability analysis
  • Ground Grid System
  • Cable Pulling System
  • Underground raceway system
  • Cable ampacity
  • Introduction to the basic concepts of protection in ETAP
  • Control and protection engineering Design
  • Symmetrical Faults Concept in ETAP
  • Unsymmetrical Faults Concept in ETAP
  • Protective Device coordination
  • Protection Schemes
  • Sequence of Operation
  • Parameter Setting and Adjustment
  • Busbar Differential Protection
  • Transformer differential Protection
  • Transmission Line Protection Concept and Case Design
  • Generator Protection Concept and Case Studies
  • Motor Protection
  • Directional Overcurrent Protection
  • TCC Plot of overcurrent Protection Device
  • Over and under voltage Protection
  • Over and under frequency protection
  • Reverse Power Protection
  • Revision and wizard toolbar
  • DC Load Flow
  • Battery sizing calculation
  • DG System Studies in ETAP
  • Solar Power System
  • Wind Power System
  • Advance Power system study
  • Optimal Power flow and Unbalanced load flow
  • Optimal capacitor placement
  • Capacitor Bank Concept and Case Study Design
  • Switching sequence management
  • Final Project
  • Load Flow Analysis
  • Introduction
  • Ferranti Effect and SIL
  • OLTC – Part 1
  • OLTC – Part 2
  • Transformer Modelling & ZIP Load Modelling
  • Power Factor Correction
  • Paralleling of Transformer
  • Modelling of Three Winding Transformer and Generator Capability Curve
  • Generator Modes of Operation
  • Active Power Control & Tower Modelling
  • Case Study – 30 MWac Solar Plant Part 1
  • Case Study – 30 MVac Solar Plant Part 2
  • Second Case Study – Solar Plant
  • How to Create Operation Scenarios in DIgSILENT Power Factory
  • Contingency Analysis
  • Load Flow Analysis Materials
  • ZIP Load Calculations
  • Ferranti Effect Calculations
  • Per Unit Calculations
  • Circulating Current Calculations
  • Capability Curve of Generator Calculations
  • KR MONOGRAPH
  • Short Circuit Analysis
  • Introduction
  • Grid Short Circuit Current Calculation
  • Per Unit Calculation and RMS Simulation
  • Short Circuit Current Calculation and RMS Simulation
  • Fault Near to the Source
  • Fault Away from the Source and Introduction to Unbalanced Faults
  • Introduction to Unbalance Fault and Symmetrical Components
  • Fault Current Calculation and NGR
  • Generator Grounding and Zigzag Transformer
  • Zigzag Transformer + NGR
  • Methods of Limiting Short Circuit Current
  • Series Reactor
  • IEC 60909 – Methods of Short Circuit Current Calculation and Grounding
  • Factors
  • Short Circuit Analysis Materials
  • SC PPT
  • Short Circuit Calculation Basics
  • Sample Calculation – 110/11 kV 45 MVA Transformer
  • Generator Fault Current Calculations
  • Symmetrical Components PPT
  • Symmetrical Component Calculations
  • LG,LL,LLG,LLG Fault Calculations
  • Zig Zag Transformer Sizing Calculations
  • Motor Acceleration Study
  • Introduction to MAS
  • MAS Basics and Motor Datasheet
  • Motor Static Study Simulation
  • Motor Static Study Simulation and Calculation
  • MAS Dynamic Acceleration Study
  • Simulation – MAS Dynamic Acceleration Study
  • MAS Dynamic Simulation of Multiple Motors
  • Star Delta Starter
  • Rotor Resistance & Series Reactor Starting Methods
  • Series Reactor Calculation – Auto Transformer Starter
  • Soft Starter and Variable Speed Drive
  • Relay Coordination
  • Basics of Relay Coordination
  • Overcurrent and Earth Fault Protection for Motor feeder
  • Overcurrent and Earth Fault Protection for Transformer feeder
  • Setting Calculation for Bus Coupler and Incomer Feeder
  • Introduction to LV Protection and Case Study
  • Continuation of Case Study and Directional Protection
  • Harmonic Analysis
  • Harmonics PPT 1
  • Harmonic PPT 2
  • K-Factor Transformer
  • CRC Press (T&F) – Harmonics and Power Systems – DE LA ROSA
  • Handbook of Power Quality -wiley 2008
  • Harmonic Analysis & Flicker
  • Flicker Analysis
  • Harmonic Filter Sizing Calculation
  • Arc Flash Analysis
  • AC Arc Flash Basics
  • AC Arc Flash Simulation in DIgSILENT PowerFactory
  • DC Arc Flash
  • Electro-Mechanical Transient – RMS Study
  • Transient Stability – RMS Simulation & Modelling – Part 1
  • Transient Stability – RMS Simulation & Modelling – Part 2
  • Electro-Mechanical Transient – RMS Study Materials
  • Question Paper
  • PPT
  • Power System Stability And Control by Prabha Kundur
  • Electro Magnetic Transient – EMT Study
  • Introduction
  • Transmission Line Modelling
  • Line Energization Part 1
  • Line Energization Part 2
  • Transformer Energization
  • Lighting Transient
  • PSCAD Software Installation
  • Introduction to PSCAD Software
  • How to Create a New Project in PSCAD
  • How to Load the existing Project
  • PSCAD toolbar introduction
  • One Line Diagram in PSCAD
  • Create your first one-line diagram
  • Distribution and Transmission System Design
  • Studies Voltage Profiling Voltage sag Studies
  • Line – Pi modelling
  • ZIP load modelling studies
  • Power Quality improvement Studies
  • Switching Over Voltages Studies
  • Lightning Over voltages Studies
  • VFTO Studies Current chopping Studies
  • Motor Analysis Grounding system design and Analysis Studies
  • Fault Over voltages Studies Bipolar
  • Homo polar HVDC Design and Analysis
  • Studies Renewable Energy Plant integration Studies
  • Flicker Studies Multi power System Integration Studies
  • Voltage stability analysis
  • Interactive simulation of large-scale interconnected power systems
  • Economics of generators and interchange transactions
  • Use of animated one-line diagrams to rapidly assess power system operating conditions
  • Utilization of pan and zoom features to simulate and display systems
  • of almost any size at different levels of detail
  • Reduction of large system models into equivalent circuits
  • Advanced visualization techniques such as contouring of bus and flow data
  • Construction of equivalent power systems
  • Contingency Analysis
  • Unbalanced Fault Analysis
  • Linear Analysis Techniques including
  • Power Transfer Distribution Factor (PTDFs),
  • Transmission Loading Relief (TLR) Sensitivities,
  • Generation Shift Factors (GSFs),
  • Outage Transfer Distribution Factors (OTDFs),
  • and Line Outage Distribution Factors (LODFs)
  • OPF – Optimal Power Flow
  • SCOPF – Security Constrained Optimal Power Flow
  • OPF Reserves – Energy market co-optimized with reserve or forward capacity market
  • ATC – Available Transfer Capability
  • PVQV – Voltage Stability Analysis
  • Transient Stability Analysis
  • SimAuto – Automation Server
  • Static module
  • Introduction to PSSE
  • Familiarization with the software
  • Network modelling in PSSE
  • Analysis of load flows
  • Analysis of short circuits and faults
  • Contingency analysis
  • Introduction to automation with Python
  • Dynamic module
  • Dynamic simulations
  • Initialization of the dynamic simulation
  • Simulation procedures
  • Dynamic models
  • Management of common problem
  • Fee: 50,000
  • Duration: 3 Months
  • Timing: 9AM-11AM, 11AM-1PM, 1PM-3PM, 3PM-5PM, 5PM-7PM, 7PM-9PM