Power system protection systems play a crucial role in establishing reliable electrical power systems. Poorly designed protection systems may result in major power failures. Due to the increasing importance of electricity, such power failures can have a serious impact on society and the economy.
Knowledge of power system protection systems is key when it comes to optimising the reliability level of electrical infrastructures. With the advances in protection and communication technology in recent decades plus the strong increase of renewable energy sources, the design and operation of power system protection systems has become ever more challenging.
This course presents the fundamentals of power system protection and its application. A very “hands-on” approach is used to teach the concepts. Understanding is then reinforced with real world examples. Interaction is encouraged between participants and the presenters, to underpin the learning objectives.
Course Contents
- Introduction To The Protection System
- Why Do We Need To Protect Our Power System
- Different Causes Of The Electrical Faults In The Power Network.
- What Are Effects Of Faults On Power System
- Behavior Of Power Systems Under Fault Conditions (Introduction)
- Protection System Components
- Protection Relays Introduction
- Mains And Back Up Protection
- Security And Dependability
- Selectivity
- Different Types Of Circuit Breakers.
- Fault Clearing Time.
- Break Failure Protection Device
- Protection System Priority.
- Directional Protection System.
- Different Properties Of The Protection System.
- Electromagnetic Relays.
- Static Relays.
- Digital Relays.
- Multifunction Relays.
- Network Topologies
- Overcurrent Protection
- Earth Fault Protection
- Unbalance Protection
- Reverse Power Protection
- Directional Over Current Relay
- Under Current Protection
- Under And Over Frequency Protection
- Under And Over Voltage Protection
- Differential Protection
- Feeder Protection
- Transformer Protection
- Genset Protection
- Lv-Mv-Hv Protection System
- 415-11kv, 132kv, 220kv, 500kv Protection
- Single Busbar, Double Busbar, Mesh, Radial, One And Half Breaker Protection System
- Why Protection Coordination Is Necessary
- Retrieving Fault Records From Protection Relays
- Analyzing Fault Records.
- Protection Coordination
- Illustrate The Definite Time/Definite Current Overcurrent Relay.
- Overcurrent Relay Settings.
- Coordination Study Between The Protections Systems In The Power Network.
- Coordination Between The Different Circuit Breakers In The Power Network.
- Idmt-Dmt
- IEC-IEEE-ANSI Curves
- Case Study
- Project Examples
- Plant Network Scheme And Protection Deployment
Trainer
The trainer has +16 years of field-based experience
Training Dates
19 May To 05 June 2024, 16 days Session-Online
Duration
3-4 hrs. /Day
Timing
06:00- 09:00 PM
Payment
Full Advance for the individual- Self-sponsored (Advance payment transition)
PO- For companies sponsored delegates (cross cheque in favor of industrial mentors)
Course Features
- Complete Training session recordings.
- The Certificate.
- A lot of Literature, standards, and papers.
- Case Studies for Practice.
- Will handle all queries and questions.
- Future Support in case of queries.