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POWER SYSTEM PROTECTION & RELAY COORDINATION COURSE
10
modules
Flexible
learning program
1 on 1
Mentor Ship
3 Months
Duration
Live Projects
experience
COURSE OVERVIEW
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 optimizing 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 training course presents the fundamentals of power system protection and its application. A very “hands-on” is used to teach the concepts. Understanding is reinforced with real world examples. Interaction is encouraged between participants and the presenters, to underpin the learning objectives.
Throughout the course, Engineers will have an opportunity to be exposed to learn more about relay coordination for power system protection by using commercial IEDs (Intelligent Electronic Device). It will facilitate to get skills for calculating settings and testing of protection operation conditions.
Completing this course will charge you for:
- Identify the challenges and solutions to industrial power system protection problems
- Select the appropriate protection schemes for various applications
- Able to analyze power system faults for balanced and unbalanced conditions
- Able to analyze time coordination curves (TCC) to verify the coordination between upstream and downstream protection devices including fuses & sequence of operation of protection devices
- Identify, apply, and calculate settings for overcurrent, directional overcurrent, distance, differential and pilot protection schemes
- Identify, apply, and calculate settings for power lines, transformer, generator and bus bar protection schemes
- Develop an understanding of the most common types of protection & apply the theory to a range of practical examples.
- Select proper sets of relays and to measure characteristics of protection
- Understand how to determine relay settings, and/or evaluate systems designed by others
- Familiarize with International Industries Norms (IEEE 242, IEEE 3004, IEEE 399, IEC 60255 etc.)
Who is the course for?
- Engineers who want to switch their department/unit to Substation Engineering department/unit in their Company
- Engineers from state Electricity Boards, Power Utilities/ Corporations
- Graduate Engineers from Academic institutions
- Pre-Final Year & Final Year Engg. Students
- R & D organizations, Research Scholars
learning path
- Power System Protection Concepts (Type of Protection)
- Protection Philosophies
- Desirable Attributes of Protection System (e.g., Security, Dependability, Selectivity etc.)
- Protection Paradigms – Apparatus Protection
- Protection Paradigms – System Protection
- Evolution of relays from Electromechanical to Numerical Relay (IED’s).
- Role of primary equipment’s e.g., Circuit Breaker, Instrument Transformer (CT’s, PT’s) etc.
- Software used for Protection Setting & Coordination
- Protection setting plans
- ANSI Code & Various Standard used for Protection & Relay setting calculation
- Sequence Components
- Extract positive, negative and zero sequence components fromÂ
unbalanced phasors - Synthesize & Analyze , S-L-G, L-L and L-L-G faults using sequence components.
- Find out fault currents for S-L-G, L-L and L-L-G faults
- Per unit calculation and its advantages
- Modeling aspects of static apparatus like transmission line and transformers
- Evaluation of Thevenin’s equivalent
- Per unit values of all element impedance in the given system
- Reduction of the circuit for the given fault locations
- S-L-G fault current for the given system
- Short-circuit calculations (Ohmic Methodology / Per Unit Calculation (IEC 60909/ IEEE 242 :1986))
- Distance Protection & Line Differential Application
- Distance Zone Settings
- Distance Protection Schemes
- Power Swing Detection and Blocking
- Directional and non-directional overcurrent & earth fault protection
- Negative sequence overcurrent protection
- Residual Power Protection – Zero Sequence Power Protection
- Switch on to fault (SOTF)
- Broken conductor detection
- Thermal overload
- Residual overvoltage
- Undercurrent protection
- Overvoltage & Under voltage protection
- Under frequency protection & Over frequency protection
- Circuit breaker fail protection
- Check Synchronization
- Auto-Recloser
- Voltage transformer supervision (VTS)
- Current transformer supervision
- Channel Aided schemes with basic schemes, Permissive Underreach (PUP) and Permissive Overreach (POP) transfer trip schemes and Blocking schemes.
- Fault recorder & Disturbance recorder
- Distance Relay Setting ExamplesÂ
- Guidelines for Protection of Power Transformers
- Protection concepts for Power Transformers
- Protection equipment typically used for power transformers
- Transformer Differential Protection (87T)
- Restricted Earth Fault Protection (64)
- Second Harmonic Blocking
- Current Protection Functions
- Phase Overcurrent protection
- Earth Fault Overcurrent protection
- Negative Sequence Overcurrent protection
- Sensitive Earth Fault protection
- Circuit Breaker Fail Protection
- Voltage Protection Functions
- Under voltage Protection
- Overvoltage Protection
- Residual Overvoltage Protection
- Negative Sequence Overvoltage Protection
- Frequency Protection Functions
- Over fluxing Protection
- Frequency Protection
- Monitoring and Control
- Event Records
- Disturbance Recorder
- Measurements
- Supervision Functions
- Voltage Transformer Supervision
- Current Transformer Supervision
- Trip Circuit Supervision
- Schematics Hardwired & Soft Logics/Interlocking
- Setting guidelines
- Worked examples on power system protection
- Guidelines for Protection of Substations
- Overall Protection Concepts for Substations
- Master Trip Relay (86) Operation
- Protection Equipment Typically used for Substation
- Busbar Protection
- Low Impedance Differential ProtectionÂ
- High Impedance Differential Protection
- 96 BB (Master Trip Relay)Â Operation
- Check Zone Feature
- Local Breaker Backup Protection
- Centralized ArchitectureÂ
- Distributed Architecture
- Bus coupler Protection
- Principle of Reactor protection
- Principle of Capacitor protection
- Different Protection functions of Reactor
- Differential Protection
- REF
- Back-Up Protection
- Over Excitation
- Under Excitation
- Different Protection functions of Capacitor
- Unbalance Protection
- Fuseless and Unfused Banks
- Overload Protection
- Short Circuit and Earth-Fault Protection
- Negative-Sequence Overcurrent Protection
- Undervoltage and Undercurrent Protection
- Guidelines for protection of power cables and lines
- Protection concepts for power cables and lines
- Protection equipment typically used for power cables and lines
- Overcurrent protection
- Setting guidelines
- Distance protection
- Differential protection
- Worked example for above
- Guidelines for protection of motors
- Protection concepts for motors
- Protection equipment typically used for motors
- Setting guidelines
- Thermal overload
- Starting protection
- Load jam protection
- Locked rotor protection
- Worked examples
- To design SCADA Architecture
- Selection of PLCC, Communication protocol
- Benefits of Substation Automation System
- Substation Automation System with IEC 61850
- Schematics of PLCC & its ArchitectureÂ
- Learn to Prepare CRP Schematics
- Line Panel
- Transformer Panel
- Busbar Panel
- Bus coupler Panel
- Reactor Panel
- Capacitor Panel
- Relay Co-ordination Setting
- Live project Examples
Above Course available on Regular, Weekend basis For Working Professionals in Online Mode.
A BETTER CHOICE
Why learn with 50Hz-Academia?
We are dedicated to ensuring that you adopt world-class professional engineering practices and gain skills that you can immediately implement in the workforce.
This course has been designed to provide you the practices of current engineering process used in Power & Electrical industry based on industry standard.
What people are saying
“I was looking for a Substation Designing Course to expand my career horizon. A friend of mine suggested to learn from 50Hz-academia online courses and it really worked for me.”
“This course was a breakthrough in my knowledge of power industry. The modules are comprehensive and of great quality, engaging and interactive.”
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