1) basic loop method
基本回路方法
1.
Based on the basic loop method,a kind of new control strategy——loop control method that can solve these problems was put forward.
分析比较了空调水系统中定末端压差控制和最小阻力控制方法的优缺点,结合基本回路方法提出了能够解决这些缺点的新的控制方法——回路控制法,通过MATLAB软件计算表明这种控制方法能够很好地解决管网水系统的解耦问题,明确了新的控制方法的节能及调节质量优于原有方法。
2) fundamental circuit equation
基本回路方程
3) basic loop analytical method
基本回路分析法
4) fundamental circuit
基本回路
1.
According to the theory of graph representa-tion and fundamental circuits,angle speed and torque equations are presented,and method of efficiency calculation is given.
根据图表示法和基本回路理论,建立角速度和力矩方程,给出了效率的计算方法,较传统方法直观、简便。
6) Multi-Loop Method
多回路方法
1.
By combined Multi-Loop Method (MLM) with Finite Element Method (FEM), synchronous generator MLM-FEM coupled mathematical model is proposed, which possesses the distinguished capability to include accurately not only the distributed capacitances of the stator winding to the ground, but a variety of nonlinearities such as magnetic saturation, pole .
文中将多回路方法与电磁场有限元计算相结合,建立了同步发电机的多回路–有限元耦合数学模型,其突出优点在于:可以同时计及定子绕组对地分布电容,磁路饱和、磁极形状、齿槽效应等因素,适用于同步发电机定子单相接地故障暂态分析及保护方案(尤其是三次谐波电压保护方案)校验。
2.
By combining multi-loop method (MLM) with finite element method (FEM), this paper puts forward a synchronous generator MLM-FEM coupled mathematical model, which possesses the distinguished capability to accurately include not only the distributed capacitances of the stator winding to the ground, but also a var.
将多回路方法与电磁场有限元计算相结合,建立了同步发电机的多回路一有限元耦合数学模型,其突出优点在于可以计及定子绕组对地分布电容、磁路饱和、磁极形状、齿槽影响以及涡流等因素,因而适用于同步发电机定子单相接地故障暂态分析。
3.
By means of the multi-loop method, the steady-state analysis of internal faults in stator windings of synchronous machine has been made, but as to the transient analysis, research only limited to singl.
运用多回路方法,已经基本解决了同步电机内部故障的稳态分析问题,但对故障的暂态研究,以前还仅限于单机空载的情况。
补充资料:基本回路矩阵(见网络图论)
基本回路矩阵(见网络图论)
fundamental loop matrix
!!匕e门hu}}目luZhen基本回路矩阵(fundamerttal 10叩matrix 见网络图论。
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