ENHANCING SECURITY AND PERFORMANCE OF CIRATAâS SUBSYSTEM THROUGH ADAPTIVE DEFENSE SCHEME METHOD
In the dynamic realm of electrical power systems, the pervasive threat of disturbances ranging from minor fluctuations to major outages, necessitates robust protection mechanisms far beyond conventional equipment based defenses. This study introduces an innovative Adaptive Defense Scheme tailored...
Saved in:
Main Author: | |
---|---|
Format: | Theses |
Language: | Indonesia |
Online Access: | https://digilib.itb.ac.id/gdl/view/82522 |
Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
Institution: | Institut Teknologi Bandung |
Language: | Indonesia |
Summary: | In the dynamic realm of electrical power systems, the pervasive threat of
disturbances ranging from minor fluctuations to major outages, necessitates robust
protection mechanisms far beyond conventional equipment based defenses. This
study introduces an innovative Adaptive Defense Scheme tailored for the Cirata’s
subsystem, addressing the critical need for a dynamic responsive protection strategy
that aligns with the fluctuating nature of power system operations. Traditional
protection schemes characterized by their static approach fall short in
accommodating the variability and unpredictability inherent in power systems,
leading to potential vulnerabilities in system stability and reliability. By leveraging
an Adaptive Defense Scheme, this study aims to bridge this gap by presenting a
methodological advancement that dynamically adjusts to the evolving conditions
of supply and demand. Employing the DIGSILENT PowerFactory software, it
designs a suitable Adaptive Defense Scheme method for the Cirata’s subsystem
through comprehensive simulation scenarios. These scenarios represent a spectrum
of potential system conditions thereby facilitating an extensive evaluation of the
Adaptive Defense Scheme’s performance. The incorporation of brute force
technique enhances the scheme's decision making process, optimizing effective
load shedding strategies to maintain system balance and prevent cascading failures.
The core outcome of this study is the development of an Adaptive Defense Scheme
that demonstrates adaptability to various system conditions while adhering to PLN's
operational standards.
The simulation results validate the Adaptive Defense Scheme’s efficacy in securing
the power system against a wide range of disturbances thereby ensuring system
stability within acceptable limits. Through strategic load shedding and potential
subsystem interconnection, the Adaptive Defense Scheme effectively mitigates the
impact of system deficits showcasing its superiority over conventional protection
methods. This study concludes that the designed Adaptive Defense Scheme
substantially enhances the security and performance of the Cirata’s subsystem,
offering a proactive intelligent solution to contemporary challenges in power
system protection. The findings underscore the potential of integrating adaptive
schemes and brute force technique in advancing power system defense mechanisms
setting a precedent for future research and implementation in the field. |
---|