A novel multi-slice electromagnetic field-circuit coupling method for transient computation of long-distance gas-insulated transmission lines  

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作  者:Shucan Cheng Yanpu Zhao Kejia Xie Bin Hu 

机构地区:[1]School of Electrical Engineering and Automation,Wuhan University,Wuhan,China [2]Shandong Taikai High Voltage Switchgear Co.,Ltd.,Taian,China

出  处:《High Voltage》2024年第4期826-838,共13页高电压(英文)

基  金:State Key Laboratory of Reliability and Intelligence of Electrical Equipment,Grant/Award Number:EERI_KF2020008。

摘  要:Accurate calculation of short-circuit electromagnetic force is crucial for both mechanical strength check and the optimal design of gas-insulated transmission lines(GIL).Since the full 3D numerical simulation method is highly time-consuming,a novel lightweight 2D multi-slice electromagnetic field-circuit coupled method for computing transient electromagnetic force is proposed,where appropriate port voltage degrees of freedom(DoFs)are introduced for the solid GIL conductor terminals.When the transient magnetic field equations are combined with the constraint equations of circuit part,including nodal voltage and loop current DoFs,a direct field-circuit coupling scheme is thus derived.The proposed method can simultaneously consider the effect of interphaseshunts and ground wires,as well as the skin effect and proximity effect.It can accurately capture the transient electromagnetic characteristics of GIL spanning from several to tens of kilometers under different short-circuit conditions.The transient electromagnetic forces,as well as the induced voltages and currents of the enclosure,are analysed by the proposed method for both single-phase and three-phase enclosed GIL under various short-circuit conditions.The proposed method has the advantages of high accuracy and lightweight computational cost,and thus it is also suitable for conducting important simulation tasks such as mechanical strength checks during the design optimisation phase of long-distance GIL.

关 键 词:TRANSIENT COUPLING field 

分 类 号:TM21[一般工业技术—材料科学与工程]

 

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