Primry & backup protection
qasmi100
1,996 views
26 slides
Feb 12, 2016
Slide 1 of 26
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
About This Presentation
slides
Slide Content
Group Members Kamran Mustafa 26 Mohsin Arif 19-A Haq Nawaz Qasmi 19 Waqar Tayyub 39
Contents Introduction Components Protective Devices Types of Protection Coordination Performance Measures
Introduction Power-system protection is a branch of electrical power engineering that deals with the protection of electrical power systems from faults through the isolation of faulted parts from the rest of the electrical network.
Components Protection systems usually comprise five components : Current and voltage transformers Protective relays Circuit breakers Batteries F uses
Continue…… Current & Voltage Transformer: Current & Voltage Transformer to step down the high voltages and currents of the electrical power system to convenient levels for the relay. Current Transformer Voltage Transformer
Continue….. Protective Relays to sense the fault and initiate a trip, or disconnection. Circuit Breakers to open/close the system based on relay and auto reclose commands. Digital Relay Circuit Breakers
Continue…. Batteries to provide power in case of power disconnection in the system . Fuses for parts of a distribution system, fuses are capable of both sensing and disconnecting faults Batteries Fuses
Protective Devices Functionality: Automatic operation, such as auto-re-closing or system restart Monitoring equipment which collects data on the system for post event analysis.
Parts of Protective Devices There are three parts of protective devices : I nstrument transformer Relay Circuit Breaker Circuit Breaker Relay Inst Transformer
Advantages ( Protective Devices) Major advantages of protective devices are: Safety Economy Accuracy
Types of Protection 1. Primary protection 2. Backup protection
Primary Protection The primary protection is the first line of defence and is responsible to protect all the power system elements from all the types of faults.
Primary Protection C.B C.B C.B C.B Main bus Line bus Over current relay C.B Circuit breaker
Primary protection may fail due to the following reasons Failure of DC supply to the tripping Circuit Failure in relay operating current or voltage Failure in circuit breaker tripping mechanism Failure of main protective relay operation Failure in the wiring of relaying system Failure of CTs or PTs operation
back-up Protection The backup protection comes into play only when the primary protection fails . when we disconnect primary protection for testing or maintenance purpose, then secondary or back-up protection will act as primary protection.
Backup protection C.B C.B C.B C.B Main bus Line bus Over current relay C.B Circuit breaker C.B
Types of Secondary or backup protection Relay Backup Protection Breaker Backup Protection Remote Backup Protection Centrally Co-ordinate Backup Protection
Relay Backup Protection In this scheme, a single breaker is used by both primary as well as backup protection but the two protective systems are different.
Breaker Backup Protection In this method, separate breakers are provided for primary and backup protection. Both the types of breakers are at the same station.
Remote Backup Protection In this method, separate breakers are provided for primary and backup protection. The two types of breakers are at the different stations and are completely isolated and independent of each other.
Centrally Co- ordinated Backup Protection In this method, primary protection is at various stations. There is a central control room and backup protection for all the stations is at central control room. Central control continuously inspects the load flow and frequency in the system. If any element of any part of the system fails, load flow gets affected which is sensed by the control room. The control source consists of a digital computers which decides the proper switching action. The method is also called centrally controlled backup protection
Coordination Protective device coordination is the process of determining the "best fit" timing of current interruption when abnormal electrical conditions occur. The goal is to minimize an outage to the greatest extent possible.
Performance Measures We can measure a protection systems performance with following: Reliability Selectivity Speed Economy Simplicity
Questions ?
THANK YOU !!!
Tags
Categories
TechnologyDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 1,996
- Slides 26
- Favorites 2
- Age 3581 days
Related Slideshows
11
8-top-ai-courses-for-customer-support-representatives-in-2025.pptx
JeroenErne2
45 views
10
7-essential-ai-courses-for-call-center-supervisors-in-2025.pptx
JeroenErne2
45 views
13
25-essential-ai-courses-for-user-support-specialists-in-2025.pptx
JeroenErne2
36 views
11
8-essential-ai-courses-for-insurance-customer-service-representatives-in-2025.pptx
JeroenErne2
33 views
21
Know for Certain
DaveSinNM
19 views
17
PPT OPD LES 3ertt4t4tqqqe23e3e3rq2qq232.pptx
novasedanayoga46
24 views