Authors :
Namburi Nireekshana; Onteru Divya; Mohammed Abdul Saquib Adil; Rathod Rahul; Mohammed Shoaib Mohiuddin
Volume/Issue :
Volume 9 - 2024, Issue 1 - January
Google Scholar :
http://tinyurl.com/ms8ubf97
Scribd :
http://tinyurl.com/4e55xf9z
DOI :
https://doi.org/10.5281/zenodo.10670526
Abstract :
Recent developments in technology have
resulted in increased power consumption from a larger
number of nonlinear loads, consequently impacting the
overall quality of power transmission. It is crucial for the
power transmitted in a line to be of top-notch quality. The
power flow is determined by factors such as line
impedance and the magnitudes of voltage at thesending
and receiving ends. Nonlinear loads can lead to the
generation of harmonic currents, resulting in system
resonance, capacitor overloading, decreased efficiency,
and changes in voltage magnitude. The simulation results
demonstrate the enhanced system stability achieved
through the utilisation of FACTS devices. Additionally,
the SSSC-based stabiliser provesto be highly effective in
dampening power system oscillations.
Keywords :
Reactive Power, SSSC, MATLAB2018b
Recent developments in technology have
resulted in increased power consumption from a larger
number of nonlinear loads, consequently impacting the
overall quality of power transmission. It is crucial for the
power transmitted in a line to be of top-notch quality. The
power flow is determined by factors such as line
impedance and the magnitudes of voltage at thesending
and receiving ends. Nonlinear loads can lead to the
generation of harmonic currents, resulting in system
resonance, capacitor overloading, decreased efficiency,
and changes in voltage magnitude. The simulation results
demonstrate the enhanced system stability achieved
through the utilisation of FACTS devices. Additionally,
the SSSC-based stabiliser provesto be highly effective in
dampening power system oscillations.
Keywords :
Reactive Power, SSSC, MATLAB2018b