Power System Analysis Certified Course

Course Description:

The Power System Analysis Certified Course provides a comprehensive understanding of modern electrical power systems, their operation, modeling, and performance evaluation. This program covers key concepts such as load flow studies, fault analysis, stability assessment, economic operation, and power system security. Learners will gain hands-on exposure to simulation tools and practical case studies that reflect real-world challenges in generation, transmission, and distribution systems. By mastering analytical techniques and computational methods, participants will be equipped to design, optimize, and maintain efficient and reliable power networks, preparing them for careers in utilities, consultancy, research, and advanced engineering roles.

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 Power System Analysis Certified Course :

• Power System Engineer 
• Transmission & Distribution Engineer 
• Energy Analyst 
• Renewable Energy Engineer
• Protection & Control Engineer
• Researcher / Academic Professional 
• Consultant in Power Systems 
• SCADA / Power System Automation Specialist 
• Energy Policy & Regulatory Expert

Essential Skills you will Develop Power System Analysis Certified Course:

• Power System Modeling & Simulation
• Load Flow Analysis
• Fault & Short-Circuit Analysis
• Stability & Reliability Assessment 
• Economic Operation of Power Systems 
• Grid Integration of Renewable Energy
• Protective Relaying & System Security
• Power Quality & Harmonics Analysis
• SCADA & Automation Skills

Tools Covered:

• MATLAB / Simulink
• ETAP (Electrical Transient Analyzer Program)
• PSCAD / EMTDC 
• Dexilant Power Factory
• PSS®E (Power System Simulator for Engineering)
• SCADA Systems
• Python for Power Systems
• MI Power

Syllabus:

Module 1: Introduction to Power Systems Structure of modern power systems (generation, transmission, distribution) Overview of power system components

Per-unit system and single-line diagrams Basics of power flow in networks.

Module 2: Power System Modeling Transmission line modeling (short, medium, long lines) Transformers and load modeling Bus admittance matrix (Y-bus) and bus impedance matrix (Z-bus) Network equations for power flow studies.

Module 3: Load Flow Analysis Gauss-Seidel method Newton-Raphson method Fast-decoupled load flow method Case studies using software tools (MATLAB, ETAP, Dexilant).

Module 4: Fault Analysis Symmetrical and unsymmetrical faults Symmetrical components method Short-circuit analysis Fault current calculations for system protection.

Module 5: Power System Stability Steady-state and transient stability Swing equation and equal area criterion Numerical methods for stability studies Transient response simulations.

Module 6: Power System Protection Protection principles and relay types Overcurrent, distance, and differential protection Protection coordination and selectivity Case studies using ETAP/Dexilant.

Module 7: Economic Operation of Power Systems Unit commitment and economic load dispatch Optimal power flow Transmission losses and penalty factors Introduction to electricity markets.

Module 8: Power Quality and Reliability Power quality issues (harmonics, voltage sag/swell, flicker) Reliability indices and system adequacy Reliability evaluation techniques Mitigation techniques for power quality improvement.

Module 9: Integration of Renewable Energy Sources Modeling of solar and wind systems Grid integration challenges Distributed generation and microgrids Case studies on renewable energy penetration.

Module 10: Advanced Topics & Smart Grids SCADA and Energy Management Systems (EMS) Wide Area Monitoring Systems (WAMS) Smart grid technologies and IoT in power systems Future trends in power system analysis.

Industry Projects:

• Load Flow Analysis of a 5-Bus Power System
• Fault Analysis and Relay Coordination
• Transient Stability Study of a Two-Machine System
• Economic Load Dispatch & Optimal Power Flow
• Power Quality Analysis in a Distribution System
• Integration of Solar/Wind Energy into the Grid
• SCADA-Based Power System Monitoring

 Who is this program for?

• Undergraduate & Postgraduate Students 
• Working Professionals in Utilities & Power Companies
• Research Scholars & Academics
• Consultants & Industry Experts
• Government & Regulatory Professionals 
• Renewable Energy Engineers 
• Fresh Graduates

How To Apply:

Mobile: 9100348679

Email: coursedivine@gmail.com