Authors :
Hemant Kadav; Saurabh Sakure; Vishal Shrawankar; Simran Nagdeve; Pratibha Shende
Volume/Issue :
Volume 9 - 2024, Issue 3 - March
Google Scholar :
https://tinyurl.com/24kpyj99
Scribd :
https://tinyurl.com/bdcu6kvn
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24MAR968
Abstract :
The project uses Thyristor Switch Reactance,
or TSR, to achieve FACTS. When charging the
transmission line, it is done when there is very little or no
load at the receiving end. Due to the low load, the
transmission line has minimal current flow, which
highlights the shunt capacitance. The voltage at the
receiving end increases two times more than the voltage
at the sending end as a result of this voltage
amplification, or Ferranti Effect. Shunt inductors are
consequently automatically linked across the
transmission line as a compensatory measure.
The project uses Thyristor Switch Reactance,
or TSR, to achieve FACTS. When charging the
transmission line, it is done when there is very little or no
load at the receiving end. Due to the low load, the
transmission line has minimal current flow, which
highlights the shunt capacitance. The voltage at the
receiving end increases two times more than the voltage
at the sending end as a result of this voltage
amplification, or Ferranti Effect. Shunt inductors are
consequently automatically linked across the
transmission line as a compensatory measure.