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Development of Generalized Model of 3-Phase Induction Motor for Performance Study During Different Distorted and Unbalance Voltage

Arunava Kabiraj Thakur1 , Arabinda Das2 , Palash Kumar Kundu3

Section:Research Paper, Product Type: Journal Paper
Volume-8 , Issue-2 , Page no. 18-25, Feb-2020

CrossRef-DOI:   https://doi.org/10.26438/ijcse/v8i2.1825

Online published on Feb 28, 2020

Copyright © Arunava Kabiraj Thakur, Arabinda Das, Palash Kumar Kundu . This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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IEEE Style Citation: Arunava Kabiraj Thakur, Arabinda Das, Palash Kumar Kundu, “Development of Generalized Model of 3-Phase Induction Motor for Performance Study During Different Distorted and Unbalance Voltage,” International Journal of Computer Sciences and Engineering, Vol.8, Issue.2, pp.18-25, 2020.

MLA Style Citation: Arunava Kabiraj Thakur, Arabinda Das, Palash Kumar Kundu "Development of Generalized Model of 3-Phase Induction Motor for Performance Study During Different Distorted and Unbalance Voltage." International Journal of Computer Sciences and Engineering 8.2 (2020): 18-25.

APA Style Citation: Arunava Kabiraj Thakur, Arabinda Das, Palash Kumar Kundu, (2020). Development of Generalized Model of 3-Phase Induction Motor for Performance Study During Different Distorted and Unbalance Voltage. International Journal of Computer Sciences and Engineering, 8(2), 18-25.

BibTex Style Citation:
@article{Thakur_2020,
author = {Arunava Kabiraj Thakur, Arabinda Das, Palash Kumar Kundu},
title = {Development of Generalized Model of 3-Phase Induction Motor for Performance Study During Different Distorted and Unbalance Voltage},
journal = {International Journal of Computer Sciences and Engineering},
issue_date = {2 2020},
volume = {8},
Issue = {2},
month = {2},
year = {2020},
issn = {2347-2693},
pages = {18-25},
url = {https://www.ijcseonline.org/full_paper_view.php?paper_id=5024},
doi = {https://doi.org/10.26438/ijcse/v8i2.1825}
publisher = {IJCSE, Indore, INDIA},
}

RIS Style Citation:
TY - JOUR
DO = {https://doi.org/10.26438/ijcse/v8i2.1825}
UR - https://www.ijcseonline.org/full_paper_view.php?paper_id=5024
TI - Development of Generalized Model of 3-Phase Induction Motor for Performance Study During Different Distorted and Unbalance Voltage
T2 - International Journal of Computer Sciences and Engineering
AU - Arunava Kabiraj Thakur, Arabinda Das, Palash Kumar Kundu
PY - 2020
DA - 2020/02/28
PB - IJCSE, Indore, INDIA
SP - 18-25
IS - 2
VL - 8
SN - 2347-2693
ER -

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Abstract

Due to the introduction of FACT devices in power supply system and complicated control in power industry, presence of harmonics in power supply system is a common problem. It increases day by day and it distorts and unbalances the supply voltage. Due to unequal transformer tap settings, open delta connected transformer banks, unbalanced distribution of single phase loads supply voltage unbalance may occurs. Three phase induction motor is the main workhouse of modern industries. Due to the application of such a polluted supply voltage the performance of three phase induction motor may be affected seriously and this may affect the load connected with the drive system. To take correct measure during torque and speed control, it is required to know the performance during voltage unbalance and distorted supply due to different harmonics. To mitigate this, an attempt has been made to develop a generalized model of a three phase induction motor for online performance study of torque and speed during different distorted and unbalance supply voltage. In doing this, Matlab/Simulink has been used to develop a model based on generalized theory of induction motor. Finally, using the model, performance has been studied during application of different distorted and unbalanced supply and reported.

Key-Words / Index Term

Modelling of Induction Motor, Torque and speed monitoring, Harmonics and unbalance voltage detection

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