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引用次数: 1
摘要
本文提出了真空绝缘系统中由小颗粒(即微粒)引起的电击穿引发机理的假设。从母电极分离的微粒带有电荷,并且由于电场在电极间区域移动。微粒在真空绝缘系统中引发击穿的作用在很大程度上取决于微粒撞击对极时的能量,即撞击时的速度。本文介绍了在真空绝缘系统中实际存在的条件下,微粒撞击对极瞬间的速度值的计算。为了计算的目的,假设微粒是球形的,由铜、铝或铁制成,并受到恒定电场的作用。确定了在冲击作用下引起电极表面塑性变形所需的微粒速度的最小值。(计算是在Visual Studio 2013环境下用c#语言开发的计算机程序进行的。)
The role of microparticles in initiating the electric breakdown in high–voltage vacuum insulation systems
The paper presents the hypotheses of initiating mechanisms of the electric breakdown in vacuum insulation systems caused by small material granules, i.e. the microparticles. The microparticles detached from the parent electrode have an electric charge and move in the inter–electrode area due to the electric field. The role of a microparticle in initiating the breakdown in a vacuum insulation system depends to a considerable extent on the microparticle energy at the moment of its impact against the opposite electrode, i.e. on its velocity at the impact time. The paper presents calculation of the microparticle velocity values at the moment of the impact against the opposite electrode under the conditions existing in practice in the vacuum insulation systems. It was assumed for purposes of the calculation that the microparticles are spherical and made of copper, aluminum or iron, and are subjected to constant electric field. Minimum values of the microparticle velocity necessary to cause plastic deformation of the electrode surface in result of the impact are determined. (The calculations have been carried out with the computer program developed in C# language on the Visual Studio 2013 environment.)