PSS®E (Power System Simulator for Engineering) Certified Course

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About Course

PSS®E (Power System Simulator for Engineering) Certified Course is a comprehensive industry-oriented training program designed to equip learners with the knowledge and practical skills required for power system analysis, planning, and operation. PSS®E, developed by Siemens, is one of the world’s leading software solutions used by power utilities, transmission companies, renewable energy organizations, and consulting firms for electrical grid simulation and analysis. This course covers power flow analysis, short-circuit studies, contingency analysis, dynamic stability, fault analysis, renewable energy integration, and network modeling through hands-on practical sessions and real-time industry projects. Participants will also learn to automate simulations using Python scripting and apply industry best practices to solve real-world power system challenges. Upon successful completion, learners will be well-prepared for careers in power generation, transmission, distribution, renewable energy, electrical utilities, and power system consulting.

Key Features of Course Divine:

  • Collaboration with E‑Cell IIT Tirupati
  • 1:1 Online Mentorship Platform
  • Credit-Based Certification
  • Live Classes Led by Industry Experts
  • Live, Real-World Projects
  • 100% Placement Support
  • Potential Interview Training
  • Resume-Building Activities

Career Opportunities After PSS®E (Power System Simulator for Engineering) Certification:

  • Power System Engineer
  • Electrical Design Engineer
  • Grid Planning Engineer
  • Power System Studies Engineer
  • Load Flow Analysis Engineer
  • Protection & Control Engineer
  • Transmission Planning Engineer
  • Distribution System Engineer
  • Renewable Energy Integration Engineer
  • Substation Design Engineer
  • SCADA/EMS Engineer
  • Electrical Project Engineer
  • Utility Engineer

Essential Skills You Will Develop PSS®E (Power System Simulator for Engineering) Certification:

  • Power System Modeling & Network Development
  • Load Flow (Power Flow) Analysis
  • Short Circuit & Fault Analysis
  • Contingency Analysis & System Security Assessment
  • Dynamic Stability Analysis
  • Transient Stability Studies
  • Voltage Stability & Reactive Power Management
  • Power System Protection Coordination
  • Renewable Energy Grid Integration
  • Transmission System Planning & Expansion Studies

Tools Covered:

  • PSS®E (Power System Simulator for Engineering)
  • Python Programming for PSS®E Automation
  • Microsoft Excel (Data Analysis & Reporting)
  • PSS®PLT (Power System Plotting Tool)
  • PSS®E Dynamic Simulation Module
  • PSS®E Load Flow Analysis Module
  • PSS®E Short Circuit Analysis Module
  • PSS®E Contingency Analysis Module

Syllabus:

Module 1: Introduction to Power Systems & PSS®E

  • Fundamentals of Electrical Power Systems
  • Overview of PSS®E Software & Interface
  • Installation, Licensing & Project Setup

Module 2: Power System Network Modeling

  • Bus, Generator & Load Modeling
  • Transmission Line & Transformer Modeling
  • Creating and Managing Network Data

Module 3: Load Flow (Power Flow) Analysis

  • Load Flow Theory & Concepts
  • Running Power Flow Simulations
  • Voltage Profile & Power Loss Analysis

Module 4: Short Circuit & Fault Analysis

  • Symmetrical & Unsymmetrical Faults
  • Fault Current Calculations
  • Protection System Coordination

Module 5: Contingency Analysis

  • N-1 & N-2 Contingency Studies
  • Transmission Line Outage Analysis
  • System Reliability Assessment

Module 6: Dynamic & Transient Stability Analysis

  • Generator Dynamic Modeling
  • Transient Stability Simulation
  • Frequency & Voltage Stability Analysis

Module 7: Renewable Energy Integration

  • Solar PV System Modeling
  • Wind Power Integration Studies
  • Grid Code Compliance Analysis

Module 8: Python Automation in PSS®E

  • Python Basics for PSS®E
  • Automating Power System Studies
  • Batch Processing & Report Generation

Module 9: Advanced Power System Studies

  • Optimal Power Flow (OPF)
  • Reactive Power Compensation
  • Voltage Control & Network Optimization

Module 10: Industry Projects & Case Studies

  • Real-Time Utility Network Simulation
  • End-to-End Power System Analysis Project
  • Technical Documentation & Project Presentation

Industry Projects:

  • Power Flow Analysis of a Transmission Network
  • Short Circuit & Fault Analysis for Utility Grids
  • Transmission Line Contingency (N-1) Analysis
  • Power System Stability Assessment Project
  • Renewable Energy (Solar & Wind) Grid Integration Study
  • Substation Network Modeling & Simulation
  • Voltage Stability & Reactive Power Compensation Analysis
  • Python Automation for PSS®E Power System Studies
  • Electrical Grid Planning & Expansion Study

Who is this program for?

  • Electrical Engineering Students
  • Electrical & Electronics (EEE) Graduates
  • Power System Engineers
  • Electrical Design Engineers
  • Transmission & Distribution Engineers
  • Substation Design Engineers
  • Renewable Energy Professionals
  • Utility & Power Plant Engineers

How To Apply:

Mobile: 9100348679

Email: coursedivine@gmail.com

 

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