Resilience Assessment of Gas Pipeline Network System Based on Complex Network Theory
DOI:
https://doi.org/10.63313/SD.2001Keywords:
Gas pipeline network system, Resilience assessment, Network resilience, Complex network, Performance response functionAbstract
To enhance the response and recovery capabilities of gas pipeline networks in the face of sudden disturbances, complex network theory is introduced to explore the performance changes of gas pipeline networks under disturbances. A network performance function that comprehensively considers the structural and functional dimensions of gas pipeline networks is proposed. Combined with the resilience stage, a performance response function method is adopted to establish an evaluation method for quantifying system resilience. This evaluation process covers the entire process from the system's resistance and adaptation to disturbances to the restoration of specific functions. An example of a certain gas pipeline network system is used for practical application.
References
[1] YANG Zhaoming, XIANG Qi, SU Huai, et al. Review and application prospect of natural gas pipeline network system resilience research[J]. Oil & Gas Storage and Transportation, 2023, 42(9): 1024-1041.
[2] CHEN Zhihua. Research on Flow Allocation and Optimization of Natural Gas Pipeline Net-work in China [D]. China University of Geosciences (Beijing),2019.
[3] Ma Chuanlu . Research on Robustness Evaluation of urban gas pipeline network based on cascade failure [D]. North China University of Technology,2022.
[4] Wang W C, Zhang Y, Li Y X, et al. Vulnerability analysis of a natural gas pipeline network based on network flow[J]. International Journal of Pressure Vessels and Piping, 2020, 188: 104236.
[5] SU Huai. Research on assessment method of supply reliability of natural gas pipeline net-works [D]. China University of Petroleum (Beijing),2018.
[6] LI Xueyi. Research on assessment method of supply resilience of naturalgas supply system [D]. China University of Petroleum (Beijing),2022.
[7] Marino A, Zio E. A framework for the resilience analysis of complex natural gas pipeline networks from a cyber-physical system perspective[J]. Computers & Industrial Engineer-ing, 2021, 162: 107727.
[8] MA Junjia. Resilience Assessment and Strengthening Technical System of Oil Pipeline Net-work under the effect of Multi-Hazard [D]. South China University of Technology,2023.
[9] HAN Lin,ZHAO Xudong,CHEN Zhilong,et al. Seismic resilience assessment and op-timization of urban water distribution network[J].China Safety Science Journal,2021,31( 2) : 135-142.
[10] Zhao Xudong,Chan Zhilong ,Gong Huadong, et al.Review on the study of disaster resilience of critical infrastructure systems [J]. China Civil Engineering Journal,2017,50(12):62-71.
[11] Ye Heng,Gao Zhenyu ,Zhang Yi, ,et al. Advance in application of complex network theory and implications for natural gas pipeline networks [J]. Oil & Gas Storage and Transporta-tion,2022,41(05):515-524.
[12] BI Wei,TANG Yuchun,MAO Tingting,et al. Review on resilience management of urban infrastructure system[J].China Safety Science Journal,2021,31( 6) : 14-28.
[13] Shen Hao,Zhang Jin ,Chen Lang ,et al. Investigating the resilience of engineering logis-tics networks against cascade failures in complex environments [J]. Journal of Safety and Environment,2024,24(08):3036-3045.
[14] Jiang Q, Cai B, Zhang Y, et al. Resilience assessment methodology of natural gas network system under random leakage[J]. Reliability Engineering & System Safety, 2023, 234: 109134.
[15] Praks P ,Kopustinskas V ,Masera M .Probabilistic modelling of security of supply in gas networks and evaluation of new infrastructure[J].Reliability Engineering and System Safety,2015,144254-264.
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