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Electrical Fault Analysis in Electrical Engineering

Learn everything about electrical fault analysis in electrical power system for electrical engineering

Khadija Academy

Summary

Price
£19.99 inc VAT
Study method
Online, On Demand What's this?
Duration
7.6 hours · Self-paced
Qualification
No formal qualification
Certificates
  • Reed courses certificate of completion - Free
Additional info
  • Tutor is available to students

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Overview

Welcome to our course 'Ultimate Electrical Fault Analysis for Electrical Engineering', which is specifically designed for electrical engineering or electrical power engineering students.

Curriculum

5
sections
36
lectures
7h 38m
total

    • 1: Ultimate Fault Analysis Course Content 02:51
    • 2: Course Slides 31:00 PDF

    • 3: Lesson 1 What Does A Fault Mean 06:27
    • 4: Lesson 2 What Does Overloading Mean 07:16
    • 5: Lesson 3 Fault Due To Wrong Operation In Electrical System 04:13
    • 6: Lesson 4 Types of Electrical Faults According to Number of Phases 06:49
    • 7: Lesson 5 Symmetrical and Unsymmetrical Faults in Power System 08:41
    • 8: Lesson 6 Difference between Earth Fault and Phase Fault 01:56
    • 9: Lesson 7 Classification of Faults According to Time 02:07
    • 10: Lesson 8 Equations and Phasor Diagram for a Healthy Balanced System 31:20
    • 11: Lesson 9 Phasor Diagram of Three Phase To Ground Fault 08:08
    • 12: Lesson 10 Phasor Diagram of Single Line to Ground Fault 02:36
    • 13: Lesson 11 Phasor Diagram of Line to Line Fault 04:09
    • 14: Lesson 12 Phasor Diagram of Double Line to Ground Fault 02:16
    • 15: Lesson 13 Open Circuit Fault in Electrical Systems 12:46

    • 16: Lesson 14 Current and Voltage Waveforms in Case of Fault Occurrence 10:05
    • 17: Lesson 15 Representation of Electrical Components and Per Unit System 16:26
    • 18: Lesson 16 Some Important Notes 03:47
    • 19: Lesson 17 Example 1 on Per Unit System 20:02
    • 20: Lesson 18 Example 2 on Per Unit System 19:05

    • 21: Lesson 19 Different Reactance of Machine During Fault Occurrence 07:49
    • 22: Lesson 20 Thevenin Methods and Steps for Fault Analysis of Symmetrical Faults 24:54
    • 23: Lesson 21 Example 1 on Symmetrical Fault Analysis 22:19
    • 24: Lesson 22 Example 2 on Symmetrical Fault Analysis 14:13
    • 25: Lesson 23 Example 3 on Symmetrical Fault Analysis 13:29
    • 26: Lesson 24 Example 4 on Symmetrical Fault Analysis 12:19

    • 27: Lesson 1 Introduction to Unsymmetrical Faults 06:25
    • 28: Lesson 2 Conversion of Unbalanced System Into Balanced Systems 21:17
    • 29: Lesson 3 Modelling Different Components for Reactance Diagram 07:36
    • 30: Lesson 4 Example on Drawing Reactance Diagram of +ve, -ve and Zero sequences 19:35
    • 31: Lesson 5 Steps of Solution 03:09
    • 32: Lesson 6 Equivalent Circuits for Different Fault Types 15:13
    • 33: Lesson 7 Example 1 on Unsymmetrical Faults Part 1 19:15
    • 34: Lesson 8 Example 1 on Unsymmetrical Faults Part 2 18:34
    • 35: Lesson 9 Example 1 on Unsymmetrical Faults Part 3 19:12
    • 36: Lesson 10 Example 2 on Unsymmetrical Faults 30:00

Course media

Description

You will learn in this course:

  • Meaning of a fault in the electrical system

  • Meaning of overloading in the electrical system

  • Types of faults in the electrical system

  • Classification of faults in the electrical system

  • Difference between symmetrical and unsymmetrical faults

  • Difference between earth and phase faults

  • Classification of faults according to time and number of phases

  • Equations and phasor diagram of a healthy system

  • Equations and phasor diagram of a three-phase fault

  • Equations and phasor diagram of a single line to ground fault

  • Equations and phasor diagram of a line-to-line fault

  • Equations and phasor diagram of a double line to ground fault

  • Effect of open-circuit fault on electrical power system

  • Current and voltage waveforms in case of an electrical fault

  • Representation of electrical components, reactance diagram, and per-unit system

  • The solution of several examples on per unit system

  • Different reactances in the electrical machine during fault

  • Thevenin method and steps of analyzing symmetrical faults

  • The solution of many examples on symmetrical faults

  • Conversion of the unbalanced system in symmetrical faults into balanced systems

  • Modeling different components for reactance diagram

  • Example on drawing the reactance diagram of +ve, -ve, and zero sequences

  • Equivalent circuits for different fault types

  • Solution of examples on unsymmetrical faults in the power system

  • Everything about the ETAP program from zero to hero

Who is this course for?

  • Anyone or electrical engineering student who wants to start gaining knowledge about power system analysis of faults and their types.

Requirements

  • Just PC or Mobile or Tablet to view lectures online

Questions and answers

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Certificates

Reed courses certificate of completion

Digital certificate - Included

Will be downloadable when all lectures have been completed

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Legal information

This course is advertised on reed.co.uk by the Course Provider, whose terms and conditions apply. Purchases are made directly from the Course Provider, and as such, content and materials are supplied by the Course Provider directly. Reed is acting as agent and not reseller in relation to this course. Reed's only responsibility is to facilitate your payment for the course. It is your responsibility to review and agree to the Course Provider's terms and conditions and satisfy yourself as to the suitability of the course you intend to purchase. Reed will not have any responsibility for the content of the course and/or associated materials.

FAQs

Study method describes the format in which the course will be delivered. At Reed Courses, courses are delivered in a number of ways, including online courses, where the course content can be accessed online remotely, and classroom courses, where courses are delivered in person at a classroom venue.

CPD stands for Continuing Professional Development. If you work in certain professions or for certain companies, your employer may require you to complete a number of CPD hours or points, per year. You can find a range of CPD courses on Reed Courses, many of which can be completed online.

A regulated qualification is delivered by a learning institution which is regulated by a government body. In England, the government body which regulates courses is Ofqual. Ofqual regulated qualifications sit on the Regulated Qualifications Framework (RQF), which can help students understand how different qualifications in different fields compare to each other. The framework also helps students to understand what qualifications they need to progress towards a higher learning goal, such as a university degree or equivalent higher education award.

An endorsed course is a skills based course which has been checked over and approved by an independent awarding body. Endorsed courses are not regulated so do not result in a qualification - however, the student can usually purchase a certificate showing the awarding body's logo if they wish. Certain awarding bodies - such as Quality Licence Scheme and TQUK - have developed endorsement schemes as a way to help students select the best skills based courses for them.
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