Day 1:
Fundamentals of Electrical Diagrams and Transient Phenomena
Introduction to electrical diagrams: symbols, conventions, and interpretation.
Overview of transient phenomena in power systems.
Key concepts in electromagnetic transients and their impact on system performance.
Hands-on exercise: reading and interpreting sample electrical diagrams.
Day 2:
Introduction to EMTP and ATP Tools
Overview of EMTP and ATP software: features and applications.
Setting up simulations for basic transient events.
Understanding input parameters and output visualization.
Case study: simulating a lightning-induced transient event.
Day 3:
Advanced Simulation Techniques
Modeling renewable energy sources in power systems.
Simulating fault conditions and analyzing their effects.
Techniques for optimizing simulation accuracy and efficiency.
Group activity: collaborative simulation project.
Day 4:
Documentation and Compliance
Best practices for documenting simulation results and findings.
Compliance with IEEE standards for power system analysis.
Writing clear and concise technical reports for stakeholders.
Workshop: creating a professional-grade report.
Day 5:
Practical Applications and Future Trends
Real-world applications of EMTP and ATP in industry.
Emerging trends in power system simulation and analysis.
Integrating simulation tools with predictive maintenance technologies.
Final assessment and feedback session.
