Low Impedance Busbar Protection Panel Schematics
Learn from Professionals, Electrical Power Engineering
Description
Dear All,
Welcome to the course about "Low Impedance Busbar Protection Panel Schematics". This training is start from very basic level to advance level. Focus has been given to deliver the practical and hands on knowledge.
Trainer have over 18 years of field experience and has worked at 11/132/220/500kV Substation, 1263MW power plant, 660kV HVDC system. worked with several companies, SIEMENS, ABB, GE, SEC, KE, WAPDA, NTDC, ARAMCO, SABIC, MARAFIQ. Trainer has given hundreds of trainings online and offline, so it will be great to join this training and take advantage of field experience.
Following topics are covered in this training:
Introduction to busbar protection
Breaker Failure protection philosophy
Substation Single line diagram, shown for busbar protection logic
High impedance Vs Low impedance busbar protection, advantages and disadvantages of each protection
Breaker Failure stage 1 & 2 operation
Direct Transfer Trip in case of Breaker Failure protection stage 2
Busbar panel general characteristics
Design aspects of the panel
Explained the symbols used in the drawings
How busbar zone is formed
Line and busbar isolator
Busbar rating
What is isolator replica and why it is required
Criteria for CT ratio selection
Option of CT ratio selection for low impedance busbar protection
Tripping matrix from busbar protection & breaker failure protection
Trip command from busbar protection based on the isolator replica
Basics of schematics, how page is divided in rows and column, how to read cross reference, move between pages.
How loop is defined in schematics & how loops are named
AC Supply circuit
AC supply change over scheme
Busbar protection blocking function, why it is required
Current transformer circuit of busbar protection
Power Supply circuit of busbar protection
Trip and Lockout schematics, CB Close Block, AR Block Schematics
Isolator Replica, CB faulty, DTT, Binary input Configurations
Direct Transfer Trip from Busbar
DC supply supervision
Z sheet, component drawings, side and front view
Thanks
What You Will Learn!
- Introduction to busbar protection
- Breaker Failure protection philosophy
- Substation Single line diagram, shown for busbar protection logic
- High impedance Vs Low impedance busbar protection, advantages and disadvantages of each protection
- Breaker Failure stage 1 & 2 operation
- Direct Transfer Trip in case of Breaker Failure protection stage 2
- Busbar panel general characteristics
- Design aspects of the panel
- Explained the symbols used in the drawings
- How busbar zone is formed
- Line and busbar isolator
- Busbar rating
- What is isolator replica and why it is required
- Selection of CT ratio criteria
- Criteria for CT ratio selection
- Option of CT ratio selection for low impedance busbar protection
- Tripping matrix from busbar protection & breaker failure protection
- Trip command from busbar protection based on the isolator replica
- Basics of schematics, how page is divided in rows and column, how to read cross reference, move between pages.
- How loop is defined in schematics & how loops are named
- AC Supply circuit
- AC supply change over scheme
- Busbar protection blocking function, why it is required
- Current transformer circuit of busbar protection
- Power Supply circuit of busbar protection
- Trip and Lockout schematics, CB Close Block, AR Block Schematics
- Isolator Replica, CB faulty, DTT, Binary input Configurations
- Direct Transfer Trip from Busbar
- DC supply supervision Z sheet, component drawings, side and front view
Who Should Attend!
- Students, technicians & engineers