2) overvoltage on power line
电力线路过电压
3) HV transmission line
高压输电线路
1.
A fault location algorithm for HV transmission line based on two-terminal asynchronous data;
基于双端不同步采样数据的高压输电线路故障测距
2.
Mechanism and solution of air discharge on HV transmission lines;
高压输电线路空气放电机理及其对策
3.
Single-phase adaptive reclose based on wavelet packet energy entropy for HV transmission lines
基于小波包能量熵判别的高压输电线路单相自适应重合闸
4) high-voltage transmission line
高压输电线路
1.
Nonlinear dynamical response of high-voltage transmission lines based on cable dropping
高压输电线路导线跌落非线性动响应分析(英文)
2.
While transmitting the load power, the high-voltage transmission line consumes the active power of its own, and absorbs or outputs the reactive power, which affects the power factor significantly.
高压输电线路在输送负荷功率的同时自身也消耗有功功率、吸收或输出无功功率,线路无功会对功率因数产生很大影响。
3.
In view of the great significance of the high-voltage transmission line on-line monitoring system to protecting the transmission line safe running,a hierarchical heterogeneous wireless sensor network is designed and implemented according to the layout of the high-voltage transmission lines and the characteristics of the parameters monitored.
高压输电线路在线监测系统对保障输电线路的安全运行具有重要意义。
5) EHV transmission lines
超高压输电线路
1.
Reaserch on phase criterion for single pole adaptive reclosure of EHV transmission lines;
超高压输电线路单相自适应重合闸相位判据的研究
2.
The voltage characteristics of the fault phase in the shunt reactor and the neutral point reactor are analyzed for the EHV transmission lines with shunt reactors.
针对带并联电抗器的超高压输电线路,研究了故障后线路断开相并联电抗器与中性点小电抗上的电压特性,发现在永久性故障时,无论是金属性接地还是经过渡电阻接地,断开相并联电抗器上电压与中性点小电抗上电压的比值总是大于瞬时性故障时两者的电压比值。
3.
A new optimization technique is developed based on the Charge Simulation Method(CSM) for precise research of the power frequency electric field generated by the EHV transmission lines under the condition of complex landscapes.
为精确研究超高压输电线路穿越较复杂地区时的工频电场,基于模拟电荷法引入最优化方法,建立了相应的二维电场计算模型和计算公式。
6) UHV transmission line
特高压输电线路
1.
Bundle conductor minimum ground clearance of 1 000 kV AC UHV transmission lines;
1000kV级交流特高压输电线路导线最小对地距离研究
2.
Research on UHV transmission line protection——pilot differential protection;
特高压输电线路保护的方案研究——纵联差动保护
3.
Prediction of audible noise of AC UHV transmission lines based on relevance vector machine
基于相关向量机的交流特高压输电线路可听噪声的预测研究
补充资料:路过
1.途中经过。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条