C4F7N混合气体正表面放电的模拟

Binhai Fan, Xiaoli Zhou, Y. Qian, Y. Zang
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引用次数: 1

摘要

C4F7N混合气体被认为是很有前途的SF6替代气体。为了研究针状平面电极下C4F7N气体混合物的表面放电特性,利用COMSOL Multiphysics建立了表面放电流体模型进行仿真,得到了流光发展过程中电场和光子通量的变化规律。通过得到光子通量的变化规律,可以给出理论放电。仿真结果表明,拖缆的发展过程可分为三个阶段:拖缆产生阶段、拖缆减速阶段和拖缆加速阶段。在整个过程中,光子通量的变化趋势与电场的变化趋势基本一致。在加速阶段,流光逐渐远离针电极,背景电场逐渐减小,电子碰撞反应产生的频率减弱,导致流光发展缓慢,流光头处的电场和光子通量逐渐减小。在加速阶段,流子由平行于平面电极转变为垂直于平面电极,电势梯度变大,导致流子发展速度加快,流子头处电场和光子通量逐渐增大。
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Simulation of positive surface discharge in C4F7N gas mixture
C4F7N gas mixture is considered to be a very promising SF6 replacement gas. In order to study the surface discharge characteristics of C4F7N gas mixture under the needle-plane electrodes, a fluid model of surface discharge was established using COMSOL Multiphysics for simulation, and the change patterns of electric field and photon flux during the development of streamer were obtained. By obtaining the change law of photon flux, it can provide the theoretical discharge. The simulation results show that the development process of streamer can be divided into three phases: streamer generation phase, streamer deceleration phase and streamer acceleration phase. During the whole process, the change trend of photon flux is basically consistent with the change trend of electric field. In the acceleration phase, the streamer gradually moves away from the needle electrode, the background electric field gradually decreases, and the frequency generated by the electron collision reaction weakens, leading to the slow development of the streamer, and the electric field and the photon flux at streamer head gradually decrease. In the acceleration phase, the streamer is converted from parallel to the plane electrode to perpendicular to the plane electrode, and the potential gradient becomes larger, leading to a faster development of the streamer and a gradual increase of the electric field and photon flux at streamer head.
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