1·The burn-out accident occurred several times in operation of dry type hollow shunt reactor.
干式空心并联电抗器在运行中曾发生多起烧损事故。
2·The parameters of neutral reactor for HV shunt reactors and the line ground switch are selected.
选择了高抗中性点小电抗和线路接地刀闸的参数。
3·According to the fault types of UHV line shunt reactor, the protective principles scheme is analyzed detailedly.
同时,根据并联电抗器的故障特征和类型,对超高压并联电抗器的保护原理配置进行了分析说明。
4·Therefore, it is of great necessity and significance to develop more advanced protection device for UHV line shunt reactor.
因此,研究和开发高性能的超高压并联电抗器保护装置具有重要的现实意义和广阔的应用前景。
5·The connection of shunt reactor and neutral reactor is normally used to extinguish arc and to ensure success of autoreclosure.
为利于故障点灭弧,提高单相重合闸的成功率,一般采用并联电抗器加中性点电抗器的接线方式。
6·Working principles for some kinds of controllable shunt reactor are introduced, and their advantages and shortcomings are analyzed.
介绍了几种可控型并联电抗器的工作原理并分析了其优缺点。
7·The protection device for UHV line shunt reactor has been verified by static simulation experiment and dynamic simulation experiment.
超高压并联电抗器保护装置已通过全面的静态测试和动模试验的验证。
8·Because of the current on the shunt reactor, traditional traveling wave differential protection cannot be applied to transmission line with shunt reactor.
由于并联电抗器两侧的电流发生变化,传统的行波差动保护无法应用于带并联电抗器的输电线路。
9·The selection of shunt reactor parameters and the most withstand voltage calculation of neutral point small reactor are discussed for different compensation modes.
给出了各种补偿方式下并联电抗器参数选择方法和中性点小电抗的最大耐受电压计算方法。
10·The principles and protection disposition of adaptive reclosing are introduced emphatically, and the voltage criterion with shunt reactor has been made improvement.
文章着重介绍了该项目的自适应重合闸的原理及保护配置,并对带并联电抗器的电压判据作了改进。