This paper presents a complete simulation and fault analysis of GPIC’s electrical network diagram. The aim of the study is to improve the system’s performance and reliability. In addition, to explore potential improvements by assessing the impact of adding or removing components under different operating conditions. The network was simulated and tested using ETAP, with fault analysis conducted based on the IEC 60909 standard. Beyond fault analysis, the study also focuses on identifying opportunities for optimizing the network design to enhance energy efficiency, reduce operational risks, and promote more sustainable industrial practices. By proposing configurations that minimize energy losses and increase system stability, this research supports the development of a more resilient and environmentally responsible power distribution system.

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Conducting A Fault Analysis for GPIC Power Distribution Network

  • Ali Alaraibi,
  • Mohamed Bakhsh,
  • Mohamed Hasan,
  • Antonios Constantinides

摘要

This paper presents a complete simulation and fault analysis of GPIC’s electrical network diagram. The aim of the study is to improve the system’s performance and reliability. In addition, to explore potential improvements by assessing the impact of adding or removing components under different operating conditions. The network was simulated and tested using ETAP, with fault analysis conducted based on the IEC 60909 standard. Beyond fault analysis, the study also focuses on identifying opportunities for optimizing the network design to enhance energy efficiency, reduce operational risks, and promote more sustainable industrial practices. By proposing configurations that minimize energy losses and increase system stability, this research supports the development of a more resilient and environmentally responsible power distribution system.