Enhancing Gas Distribution Network Resilience Utilizing a Mixed Social Network Analysis-Simulation Approach: Application of Artificial Intelligence

Enhancing Gas Distribution Network Resilience Utilizing a Mixed Social Network Analysis-Simulation Approach: Application of Artificial Intelligence

This study introduces a resilience-oriented framework to enhance the performance of energy distribution networks under partial high workload conditions with a particular emphasis on natural gas systems. Given the critical role of gas delivery in economic stability and societal well-being, ensuring t...

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Bibliographic Details
Main Authors: Mehrdad Agha Mohammad Ali Kermani, Negar Mohammadi, Hasan Ghasemi, Hadi Sahebi, Hani Gilani
Format: Article
Language:English
Published: IEEE 2025-01-01
Series:IEEE Access
Subjects:
Social network analysis (AI)
gas industry
resilience network
simulation
Online Access:https://ieeexplore.ieee.org/document/10807227/
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Summary:This study introduces a resilience-oriented framework to enhance the performance of energy distribution networks under partial high workload conditions with a particular emphasis on natural gas systems. Given the critical role of gas delivery in economic stability and societal well-being, ensuring the reliability and robustness of its network design is imperative. This research adopts a Social Network Analysis (SNA) methodology, augmented by an artificial intelligence-based approach, to appraise the dynamics and interdependencies of gas distribution networks under varying operational conditions. The proposed framework integrates SNA with simulation-based network analysis to enhance resilience by identifying critical nodes and edges susceptible to disruption, especially during demand fluctuations periods. A key advantage of this approach lies in its applicability as a consumer vulnerability mitigation strategy during high-demand scenarios, thereby reinforcing network robustness. The findings offer significant insights and methodological contributions applicable across gas networks, ultimately promoting smarter and more resilient energy solutions. Overall, this research provides a comprehensive strategy for strengthening network resilience, supporting the broader objectives of energy security and sustainability.
ISSN:2169-3536

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