ETAP Dynamic and Static Motor Acceleration Analysis and Starting Methods

Learn the fundamentals of induction motor dynamics, motor acceleration analysis, and motor starting methods (Autotransformer, Star-Delta) in ETAP software. 10 sections and 19 lectures in 3h 19m total course length.

Course Description

This course’s objective is to teach the fundamentals of induction motor dynamics, motor acceleration analysis, and motor starting methods (Autotransformer, Star-Delta) in ETAP software.

The course starts with an overview of the ETAP software, the fundamentals of drawing a single-line diagram, data entry, and swiftly broadens the users’ knowledge to include techniques for automatically carrying out several “what if” analyses using various situations. To make the concepts easier for the participants to understand, the topics are wherever possible discussed with hand calculations, and the results are compared with ETAP software.

In case you want to master motor starting analysis with ETAP Software, you’ve come to the right place. You can become an ETAP and power system expert with the aid of this course.

Major topics covered in this course:

  • Introduction To Induction Motor Dynamics and Transients
  • Input Data Required For Dynamic and Static Motor Starting Analysis
  • Impedance Method or Voltage Divider Method To Derive Motor Terminal Voltage During Start
  • Dynamic and Static Motor Starting Analysis Theory and Examples
  • Autotransformer Motor Starting Analysis Theory and Examples
  • Star-Delta Motor Starting Analysis Theory and Examples
  • Motor Reacceleration or Fault Transient Analysis Theory and Examples

Course Summary

  • Fundamentals of Induction Motor Dynamics
  • Fundamentals of Induction Motor Acceleration Analysis
  • Input Data for Induction Motor Acceleration Analysis Required by Simulation Software
  • Difference Between Control and Uncontrolled Voltage Source
  • Manual Calculation on Impedance Method or Voltage Divider Method for Calculating Motor Terminal Voltage
  • Induction Motor Acceleration Analysis Examples
  • Dynamic and Static Motor Starting Analysis
  • Autotransformer Motor Starting Analysis
  • Star-Delta Motor Starting Analysis
  • Motor Reacceleration Analysis Or Fault Motor Transient Analysis

Who Is This Course For

  • Beginners Who Are New To ETAP Software
  • Students Preparing Their Projects/Thesis
  • Graduate Electrical Engineers For Cracking The Interviews
  • Professionals Working For Companies & Needs To Execute Power System Study Projects
  • Project Engineers
  • Electrical Technicians
  • Project Managers
  • Electrical Operators

Requirements

  • Fundamentals of Electrical Engineering
  • Passion To Learn Power System Analysis
  • No Any Special Skills and Knowledge Requirement

Downloadable course materials

After purchasing the course, students can download the following materials:

  • 1. Induction Motor Dynamics and Transients (PDF)
  • 2. ETAP Input Data Dynamic Motor Starting Analysis (PDF)
  • 3. Controlled Vs Uncontrolled Voltage Source (PDF)
  • 4. Impedance Method or Voltage Divider Method (PDF)
  • 5. Motor Starting in Motor Starting Module Vs Transient Stability Module in ETAP (PDF)
  • 5.1 ETAP Software Input Data Requirement for Dynamic Motor Starting Analysis (PDF)
  • 5.2 Induction Motor Starting Analysis Example #1 (PDF)
  • 5.3 Induction Motor Starting Analysis Example #2 (PDF)
  • 5.4. Induction Motor Starting Analysis Example #3 (PDF)
  • 6. Faulted Motor Transient Study Theory (PDF)
  • 6. Static Motor Starting Analysis (PDF)
  • 6.1 Faulted Motor Transient Study Example (ZIP)
  • 7.1 Autotransformer Motor Starting Analysis – Theory (PDF)
  • 7.2 Autotransformer Motor Starting Analysis – Example (PDF)
  • 8.1 Star-Delta Motor Starting Analysis – Theory (PDF)
  • 8.2 Star-Delta Motor Starting Analysis – Example (PDF)
  • AC motors starting, breaking and protection systems - with failure analysis (PDF)

Course Content

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About Instructor

Elektrik Power Academy

Team of experienced electrical engineers having rich experience in power system analysis, substation & switchyard design and engineering and in power system protection. Team worked on various power system analysis projects, substation/switchyard detailed design & engineering upto 400kV.Very passionate about power system analysis & power system protection subjects. Engineers in the team have published various papers in IEEE/CIGRE forums.

3 Courses

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Course Includes

  • 11 Lessons
  • 19 Topics
  • Course Certificate
  • Lifetime Access