Secondary Trainings for HMF

About Course

Objectives

Understand the basic concept of winding temperature indicators and current transformers.
Learn the fundamentals of synch-check and its importance in system synchronization.
Gain knowledge of fault detection and tripping concepts.
Explore real-life project examples to connect theory with practice.
Build an understanding of how to review project scope for new projects.
Learn the difference between local end and remote end in protection schemes.
Familiarize with fault protection abbreviations used in SSEN.
Understand transformer mechanical protection basics.
Gain a basic overview of AVC (Automatic Voltage Control).
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Key Topics

Winding temperature indicator and CT basics: purpose, measurement, and monitoring.
Synch-check: ensuring safe synchronization of generators and grid systems.
Faults and tripping: detection, relay action, and breaker operation.
Real-life project examples: application of protection concepts.
Reviewing project scope: steps for new project evaluation.
Local end vs. remote end: definitions and roles in protection coordination.
SSEN fault protection abbreviations: overview and usage.
Transformer mechanical protection: Buchholz relay, pressure relief devices, and temperature monitoring.
AVC basics: role in voltage regulation and system stability.

Practical Focus

Key Takeaways

Ability to explain winding temperature indicators and CT basics.
Understanding of synch-check importance in system safety.
Awareness of fault detection and tripping mechanisms.
Practical insight into reviewing project scope and applying protection concepts.
Knowledge of local vs. remote ends in protection schemes.
Familiarity with SSEN abbreviations and transformer mechanical protection.
Basic understanding of AVC and its role in voltage control.

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