Protection Application for Industrial Systems

4 Days

Learning

After successful completion of this course, participants would be able to understand the fundamental philosophy of power system protection. They would also gain knowledge on basic fault analysis, helping them to analyse system events and perform post fault trouble shooting and suggest improvements. Participants of this course would also learn the operating principles of all protection systems present in an industrial power systems (such as over current & earth fault, transformer, motor, line differential and capacitor bank protection). They would also learn the technical issues behind selection of instrument transformers for a given application. With the knowledge gained in this course, they would be able to operate and maintain the protection system of any kind of industrial power system plant better and also perform effective and fast trouble shooting when required.

Participants

Practicing engineers working in all types of industries and consultants will benefit from this course. To derive maximum benefit from the course, we recommend that only participants with electrical engineering background take up this course. Participants could be technicians, operations staff, maintenance engineers, planning engineers, application engineers or commissioning engineers.

Course Outline

Fundamental Concepts

Various elements of power system
Operating states of the power system
Building blocks of protection system
Vital properties of a protection system
Zones of protection
Main and back-up protection
Monitoring of protection system

Basic Fault Calculation

Types of faults
Single-phase and three-phase fault calculations
Per unit calculation method
Worked examples for fault calculations

Instrument Transformers

Types of current transformers
Effect of current transformer core and winding design on its performance
Causes of errors in current transformers
Reasons for saturation of current transformers and its effect on protection
Specification of current transformers used for protection and metering applications
Types of voltage transformers
Specifying voltage transformers for protection and metering applications
Various methods of connection of voltage transformers and their application

Overcurrent And Earth Fault Protection

Types of OC protection devices
Different OC protection characteristics and their application
Basis for selecting the settings of OC and EF protection for various applications
Procedure for co-ordinating OC and EF protection
Application of various types of earth fault protections
Application, operating principle of directional relays and their setting

Transformer Protection

Types of 3-phase transformer connections
Fault current distribution in 3-phase transformers
Types of faults in transformers
Transformer differential protection
Restricted EF protection for star and delta winding
Backup OC and EF protection
Ancillary protection of transformers

Line Differential Protection

Current differential protection principle
Differential protection characteristics
Techniques for synchronising signals

Induction Motor Protection

Characteristics of induction motors
Thermal overload protection of motors
Locked rotor and stalling protection
Supply voltage unbalance protection
Short circuit protection

Capacitor Bank Protection

Application of shunt capacitor banks
Capacitor bank connection and switching
Faults in capacitor banks
Protection of capacitor banks against system faults
Unbalance detection principles for capacitor banks