Learning Objectives:
Understand the fundamental principles of protection philosophy.
Gain knowledge about the role and significance of instrument transformers in protection schemes.
Comprehend various aspects of transformer protection, including differential protection and overfluxing protection.
Develop skills in fault calculations, relay setting, and coordination for efficient protection schemes.
Familiarize with transmission line protection techniques, such as line differential protection and distance protection.
Analyze occurrences and develop strategies for protection schemes in different scenarios, including line, transformer, feeder, capacitor bank, and bus bar protection.
Gain insights into system protection schemes and their implementation.
Experience firsthand the practical aspects of protection systems through a substation visit.
Knowledge Covered:
Principles of protection philosophy
Functionality and application of instrument transformers
Techniques and methodologies for transformer protection
Fault calculations, relay setting, and coordination principles
Various transmission line protection schemes
Occurrence analysis for different protection scenarios
System protection scheme design and implementation
Skills Covered:
Fault calculations and analysis
Relay setting and coordination
Implementation of transmission line protection schemes
Analysis of occurrence and development of protection strategies
Practical understanding of system protection schemes through a substation visit
Key Takeaways and Benefits:
This comprehensive training course offers participants a deep understanding of protection philosophy and its practical applications in electrical systems. By delving into topics such as instrument transformers, transformer protection, transmission line protection, and occurrence analysis, participants will gain invaluable insights into designing, implementing, and optimizing protection schemes. Through case studies and hands-on experiences, participants will develop the skills necessary for fault calculations, relay setting, and coordination, ensuring the efficient and reliable operation of electrical systems. Additionally, the opportunity to visit a substation provides a real-world context, enhancing the learning experience and enabling participants to apply their knowledge in practical scenarios. Upon completion of this course, participants will be equipped with the expertise and confidence to contribute effectively to the design, implementation, and maintenance of robust protection systems, ultimately ensuring the safety and reliability of electrical infrastructure.