This paper presents the evaluation of the capacitance of an isolated elliptical plate and two parallel elliptical plates. Integral equations are formed by relating the previously unknown charges on the elliptical plat...This paper presents the evaluation of the capacitance of an isolated elliptical plate and two parallel elliptical plates. Integral equations are formed by relating the previously unknown charges on the elliptical plates and the potential on the metallic plates. The integral equations are solved by applying the method of moments based on the pulse function and point matching. The elements of the matrix in the method of moments are found by dividing the structure into triangular subsections. The matrix equation is solved in order to compute the unknown charges on each subsection. Numerical results on the capacitance as a function of the geometrical parameters of the ellipse are presented.展开更多
该文利用双极性脉冲电源激励填充床反应器。为了优化填充式介质阻挡放电反应器结构和电气参数,研究了不同电极形状、电极直径、石英管管径、填充材料(玻璃珠)粒径、脉冲成形电容等参数对反应器放电功率的影响。实验结果表明,采用螺纹棒...该文利用双极性脉冲电源激励填充床反应器。为了优化填充式介质阻挡放电反应器结构和电气参数,研究了不同电极形状、电极直径、石英管管径、填充材料(玻璃珠)粒径、脉冲成形电容等参数对反应器放电功率的影响。实验结果表明,采用螺纹棒电极的反应器放电功率高于普通棒状电极,增大电极直径或减小外部石英管的管径均能显著增加反应器的注入功率,填充玻璃珠的粒径越小越有利于反应器的能量注入。相同电压下,当脉冲成形电容从0.5增至1.5 n F,反应器的注入功率和放电电流增幅较大;当成形电容值大于1.5 n F时,反应器注入的功率和电流并没有显著提高。因此,1.5 n F是优化过的最佳脉冲成形电容值,是反应器静态电容(75 p F)的20倍。展开更多
文摘This paper presents the evaluation of the capacitance of an isolated elliptical plate and two parallel elliptical plates. Integral equations are formed by relating the previously unknown charges on the elliptical plates and the potential on the metallic plates. The integral equations are solved by applying the method of moments based on the pulse function and point matching. The elements of the matrix in the method of moments are found by dividing the structure into triangular subsections. The matrix equation is solved in order to compute the unknown charges on each subsection. Numerical results on the capacitance as a function of the geometrical parameters of the ellipse are presented.
文摘该文利用双极性脉冲电源激励填充床反应器。为了优化填充式介质阻挡放电反应器结构和电气参数,研究了不同电极形状、电极直径、石英管管径、填充材料(玻璃珠)粒径、脉冲成形电容等参数对反应器放电功率的影响。实验结果表明,采用螺纹棒电极的反应器放电功率高于普通棒状电极,增大电极直径或减小外部石英管的管径均能显著增加反应器的注入功率,填充玻璃珠的粒径越小越有利于反应器的能量注入。相同电压下,当脉冲成形电容从0.5增至1.5 n F,反应器的注入功率和放电电流增幅较大;当成形电容值大于1.5 n F时,反应器注入的功率和电流并没有显著提高。因此,1.5 n F是优化过的最佳脉冲成形电容值,是反应器静态电容(75 p F)的20倍。