Study on Chaotic Dynamic Arc Behavior in SF6 Circuit Breaker
Based on the arc mathematical model for the SF6 circuit breaker (CB), the equations describing the arc chaotic behavior were deduced by considering the velocity and temperature effect in the model as the chaotic characteristics and expending in 2D form using the convergence of Fourier series. The time series, and Lyapunov exponents diagram reflecting the chaotic behavior of arc were obtained based on the numerical analyses, which proved that the arc behavior exist chaos during the arc quenching. In order to reflect the interactions of the coupling of the electric field, magnetic field and gas flow field and confirm the factors affecting the arc chaotic behavior, third-order nonlinear differential equations with constant coefficient for arc in SF6 CB has been obtained by introducing Maxwell and current density equations in the arc mathematical model and linearizing a set of nonlinear differential equation for the arc model according to the stability theory. The results show that the shock wave is one of the origin of the arc instability. By adjusting the parameters for SF6 CB closely related to the temperature, the system has significant chaotic behavior, which indicates that the system stability can be effectively controlled according to the temperature. SF6 CB;arc plasma;Fourier series;chaos
Ying Han Xiaoming Liu Yuejun An Xue Leng Liying Li
School of Electrical Engineering, Shenyang University of Technology No.111, Shenliao West Road, Economic & Technological Development Zone, Shenyang, 110870, P.R.CHINA
国际会议
西安
英文
123-126
2011-10-23(万方平台首次上网日期,不代表论文的发表时间)