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Cascading Failure Propagation Simulation in Integrated Electricity and Natural Gas Systems

Zhejing Bao, Qihong Zhang, Lei Wu, Dawei Chen

2020Journal of Modern Power Systems and Clean Energy35 citationsDOIOpen Access PDF

Abstract

The sharp increase in the total installed capacity of natural gas generators has intensified the dynamic interaction between the electricity and natural gas systems, which could induce cascading failure propagation across the two systems that deserves intensive research. Considering the distinct time response behaviors of the two systems, this paper discusses an integrated simulation approach to simulate the cascading failure propagation process of integrated electricity and natural gas systems (IEGSs). On one hand, considering instantaneous re-distribution of power flows after the occurrence of disturbance or failure, the steady-state AC power flow model is employed. On the other hand, gas transmission dynamics are represented by dynamic model to capture the details of its transition process. The interactions between the two systems, intensified by energy coupling components (such as gas-fired generator and electricity-driven gas compressor) as well as the switching among the operation modes of compressors during the cascading failure propagation process, are studied. An IEGS composed of the IEEE 30-bus electricity system and a 14-node 15-pipeline gas system is established to illustrate the effectiveness of the proposed simulation approach, in which two energy sub-systems are coupled by compressor and gas-fired generator. Numerical results clearly demonstrate that heterogeneous interactions between electricity and gas systems would trigger the cascading failure propagation between the two coupling systems.

Topics & Concepts

Cascading failureGas compressorElectricityNatural gasEngineeringElectric power systemGenerator (circuit theory)Electric power transmissionElectricity generationPipeline (software)Coupling (piping)Process (computing)Node (physics)Compressor stationPower (physics)Computer scienceMechanical engineeringElectrical engineeringPhysicsStructural engineeringOperating systemWaste managementQuantum mechanicsIntegrated Energy Systems OptimizationMicrogrid Control and OptimizationHybrid Renewable Energy Systems