RESEARCH OF ELECTRIC ARC MODEL FOR HIGH VOLTAGE CIRCUIT BREAKER BASED ON MATLAB

Authors

  • Mr. Kushal V Saitwal Electrical Power System, Shree Satya Sai University of Technology &Medical Science
  • Assistant Prof. Prabodh Khampariya Electrical Power System, Shree Satya Sai University of Technology &Medical Science

Keywords:

Interruption, Electric arcing contact, Physical Model, Black Box Model, Parameter Model,matlab

Abstract

Circuit breakers perform a very important role in electrical power system networks. They identify the faults
and isolate faulted sections rapidly, clearly and reliably. They are also used for normal load switching. A circuit breaker
is a switching device that is capable of making, carrying for a specified time and breaking current under specified
abnormal circuit conditions such as those of short circuit. Cassie's and Mayr's electric arc the two models for expository
deciding of electric circular segment parameters, which were presented in this paper.Therefore, the optimization of the
operation of high voltage circuit breakers makes necessary a deep understanding of the phenomena involved in the
appearance of the electric arc. High voltage circuit breakers working base is the electric arc that appears between their
contacts when establishing or interrupting the electric current in the circuit.This electric curve is an unpredictable
wonder where heaps of physic associations happen in a brief timeframe. Numerous strategies have been produced to test
the circuit breakers and reproduced bend display. This is to be achieved by means of modelization and simulation
tools.The aim of this paper is to showing the phenomena of the electric arc in high voltage circuit breakers, as well as the
description of the mathematical, physical and software needs for its monetization and simulation.

Published

2018-07-25

How to Cite

Mr. Kushal V Saitwal, & Assistant Prof. Prabodh Khampariya. (2018). RESEARCH OF ELECTRIC ARC MODEL FOR HIGH VOLTAGE CIRCUIT BREAKER BASED ON MATLAB. International Journal of Advance Engineering and Research Development (IJAERD), 5(7), 43–48. Retrieved from https://ijaerd.org/index.php/IJAERD/article/view/3743