Numerical Simulation of High-Current Vacuum Arc with Consideration of Anode Vapor 被引量：1

Numerical Simulation of High-Current Vacuum Arc with Consideration of Anode Vapor

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摘要 A high-current vacuum arc （HCVA） with the consideration of anode vapor is modeled and simulated. First, from the HCVA column model, the heat flux density to the anode is obtained, which is put into the anode activity model, and the parameter distributions （such as the vapor temperature and velocity） of anode vapor are obtained from the simulation results of the anode activity model. Then, by iterating and calculating the HCVA column model and anode activity model, the interaction between the HCVA column and the anode vapor is simulated and analyzed. In the simulation, the distribution of the axial magnetic field （AMF） generated by the electrode system is calculated by software ANSYS. The simulation results show that the influence of anode vapor on the parameter distributions in the arc column is significant. The simulation results are also compared with the vacuum arc photograph. A high-current vacuum arc （HCVA） with the consideration of anode vapor is modeled and simulated. First, from the HCVA column model, the heat flux density to the anode is obtained, which is put into the anode activity model, and the parameter distributions （such as the vapor temperature and velocity） of anode vapor are obtained from the simulation results of the anode activity model. Then, by iterating and calculating the HCVA column model and anode activity model, the interaction between the HCVA column and the anode vapor is simulated and analyzed. In the simulation, the distribution of the axial magnetic field （AMF） generated by the electrode system is calculated by software ANSYS. The simulation results show that the influence of anode vapor on the parameter distributions in the arc column is significant. The simulation results are also compared with the vacuum arc photograph.

作者张玲王立军贾申利杨鼎革史宗谦

机构地区 State Key Laboratory of Electrical Insulation and Power Equipment

出处《Plasma Science and Technology》 SCIE EI CAS CSCD 2012年第4期285-292,共8页 等离子体科学和技术（英文版）

基金 supported by National Natural Science Foundation of China (No. 50907045)

关键词 high-current vacuum arc anode vapor INTERACTION numerical simulation high-current vacuum arc, anode vapor, interaction, numerical simulation

分类号 TM501.2 [电气工程—电器] O53 [理学—等离子体物理]

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