Power system diagnostic condition monitoring of transformative intrinsic algorithm based unified power flow control in high voltage grid system analysis
Main Article Content
Abstract
Nowadays, Power system stability analysis
is essential to ensure reliable and continuous service
to consumers. The problem of the poorly damped
low-frequency of the power systems oscillations has
been an issue of concern to the power transmission
system for a long time because they limit power
transfers in transmission lines and induce stress are
presented in the distributed generation. Due to this
disturbances, power systems experience these poorly
damped low-frequency oscillations. The dynamic
stability of power systems is also affected by these
low-frequency oscillations. Due to this constraints,
the proper optimization designing will be required of
these oscillations which can be well damped and
hence the system stability is enhanced. This proposed
work is analyzing the Distribution transmission
consider which includes UPFC based low-frequency
stabilization using Transformative Intrinsic
Algorithm (TIA) is approached. The coordinated
proposed controller is effectively optimizing the
damping control parameters under different criteria.
The projected modeling is applied in the Matlab 2017
environment for different test condition which is
compared with the conventional method of regulating
the damping control, settling time, sag voltage,
parameters to show the advantages and robustness of
the proposed design.
is essential to ensure reliable and continuous service
to consumers. The problem of the poorly damped
low-frequency of the power systems oscillations has
been an issue of concern to the power transmission
system for a long time because they limit power
transfers in transmission lines and induce stress are
presented in the distributed generation. Due to this
disturbances, power systems experience these poorly
damped low-frequency oscillations. The dynamic
stability of power systems is also affected by these
low-frequency oscillations. Due to this constraints,
the proper optimization designing will be required of
these oscillations which can be well damped and
hence the system stability is enhanced. This proposed
work is analyzing the Distribution transmission
consider which includes UPFC based low-frequency
stabilization using Transformative Intrinsic
Algorithm (TIA) is approached. The coordinated
proposed controller is effectively optimizing the
damping control parameters under different criteria.
The projected modeling is applied in the Matlab 2017
environment for different test condition which is
compared with the conventional method of regulating
the damping control, settling time, sag voltage,
parameters to show the advantages and robustness of
the proposed design.