What you'll learn:
- Why we use interlocking on electrical substations
- Where to put metering in electrical networks
- How to read and understand protection and control drawings
- How to use test plugs and sockets and where to put them in the protection system
- Why trip relays are needed on the protection system
- How to use interposing relays
- How mechanical interlocking is used to ensure that equipment is switched in a safe sequence
- How we connect meters to current transformers & voltage transformers
- How to define the ferruling for different types of circuits
- Explain the different types of relay flags & contacts
Electricalcontrol & protection systems are a critical part of the distribution & transmission systems that feed power to our cities & industries.
The fourth part of this protection course focuses on the building blocks of a protection system and the feeder protection systems that we use on high voltage networks
The course will go into detail for the following key topics :-
Introduce the generalprinciples behind the different types of drawings we use and how we read them
Show how we apply ferruling to the different circuits on the protection system
Look at all of the different types of auxiliary relays that we use including trip relays, flag relays and interposing relays
Look at test blocks and test plugs and show how we integrate them into different types of circuits.
Introduce the principles behind interlocking, and develop the logic for some typical circuits
Show how we apply electrical interlocking to the substation systems
Introduce the ideas behind mechanical interlocking and provide some working examples of how it can be applied to a typical circuit.
Look at the principles behind metering, what equipment we use and how we define the current transformers and voltage transformers
Look in detail at power factor compensation and how we protect the capacitor banks that we use for these systems.
By theend of the course the studentwill be able to identify all of the key components of a protection & control system and understand how all of these components fit together to create a fully integrated system.