THREE PHASE TRANSMISSION LINE FAULT DETECTION AND ANALYSIS SYSTEM

Authors

  • Prof. Divya A. Bawane Electrical Engineering Department Shri Sai College of Engineering & Technology, Bhadrawati
  • Prof. Umesh G. Bonde Electrical Engineering Department Shri Sai College of Engineering & Technology, Bhadrawati
  • Prof. Mayur S. Pote Electrical Engineering Department Shri Sai College of Engineering & Technology, Bhadrawati
  • Prof. Sameer S. Raut Electrical Engineering Department Shri Sai College of Engineering & Technology, Bhadrawati

DOI:

https://doi.org/10.59367/d327hq14

Keywords:

IOT, ESP8266, Arduino, Relay, GPS Module

Abstract

Transmission line is the most important part of the power system. Transmission lines a principal amount of power. The requirement of power and its allegiance has grown up exponentially over the modern era, and the major role of a transmission line is to transmit electric power from the source area to the distribution network. The exploded between limited production, and a tremendous claim has grown the focus on minimizing power losses. Losses like transmission loss and also conjecture factors as like as physical losses to various technical losses, Another thing is the primary factor it has a reactive power and voltage deviation are momentous in the long-range transmission power line. In essentially, fault analysis is a very focusing issue in power system engineering to clear fault in short time and re-establish power system as quickly as possible on very minimum interruption. However, the fault detection that interrupts the transmission line is itself challenging task to investigate fault as well as improving the reliability of the system.

References

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Published

2024-03-11

Issue

Vol. 3 No. 1 (2024)

Section

Articles

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Copyright (c) 2024 International Journal of Futuristic Innovation in Arts, Humanities and Management (IJFIAHM)

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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite

THREE PHASE TRANSMISSION LINE FAULT DETECTION AND ANALYSIS SYSTEM. (2024). International Journal of Futuristic Innovation in Arts, Humanities and Management (IJFIAHM), 3(1), 188-194. https://doi.org/10.59367/d327hq14

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