1) skewed slot
斜槽
1.
Finite element analysis of straight and skewed slot permanent magnet brushless motor;
直槽与斜槽式永磁无刷电动机的有限元分析
2.
This paper summarizes the manufacturing technique of synchronous machine by production process of it and focuses the manufacturing and laminating requirements of the skewed slot lamination.
通过对粗轧同步电机的生产,对整个加工工艺做了总结,重点介绍了斜槽冲片的加工及叠片的要求。
3.
The relation between skewed slot coefficient and back electromotive force wave is analyzed.
本文采用有限元法对外转子无刷直流电动机的电磁场进行数值计算,分析了电机定子斜槽与相反电势波形的关系,提出了采用运动气隙边界法处理定转子相对运动、利用矢量叠加计及定子斜槽的方法。
2) flume
[英][flu:m] [美][flum]
斜槽
1.
The research on the performance of storage pump and flume-key equipments of dry-ashdisposal system was conducted,the best performance of the dry-ash-disposal system was thus calculated.
盘电干除灰系统设备运行稳定,燃用神华煤的灰分在7%左右,现在系统每天按照节能方式运行16 h左右,随着国内煤炭市场的变化,盘电公司的煤种也将会发生变化,对干除灰系统的关键设备——仓泵和斜槽的出力进行研究,从中计算出干除灰系统的最大出力,并对干除灰系统的节能和危险点进行评估,提出改进建议。
2.
Feed flume by air is used widely in transporting powder material.
空气输送斜槽在输送粉状物料方面得到广泛的应用,根据设计及现场使用情况,浅谈几点要素。
3) skewed slots
斜槽
1.
Numerical calculation of the branch voltage of a salient pole synchronous generator with eccentric rotor and skewed slots;
转子偏心及定子斜槽凸极同步发电机支路感应电动势的数值计算
2.
Branch voltage of a salient pole synchronous generator with eccentric rotor and skewed slots;
转子偏心及定子斜槽凸极同步发电机支路的感应电动势
4) chute
[英][ʃu:t] [美][ʃut]
斜槽
1.
Application of Grouting Technology in the Chute Ground Base Consolidation Engineering;
灌浆技术在斜槽地基加固工程中的应用
5) skewing slot
斜槽
1.
Step-skew coefficient and reduction coefficient of PM torque and reluctant torque were introduced to analyze the influence of step skewing on the back EMF and EM torque;meanwhile step skewing and skewing slot were also compared in this paper.
引入斜极系数、永磁转矩削弱系数以及磁阻转矩削弱系数分析了分段斜极对永磁同步电动机反电势波形和电磁转矩的影响,揭示了分段斜极和定子斜槽的区别,并提出了分段斜极转子轴向分段数的选择原则和最佳斜极角的计算方法。
6) chute
[英][ʃu:t] [美][ʃut]
斜槽;送料槽
补充资料:风动式输送斜槽
分子式:
分子量:
CAS号:
性质:风动式运输设备的一种。由一个斜槽构成,槽体用水平的多孔隔板分为上下两层。物料加在槽的上层,下层通入压缩空气。压缩空气透过多孔板进入槽的上层,槽内粉状物料受到下面空气衬托而像流体般地产生运动,由槽的较高处流向较低处,从而达到运输目的。
分子量:
CAS号:
性质:风动式运输设备的一种。由一个斜槽构成,槽体用水平的多孔隔板分为上下两层。物料加在槽的上层,下层通入压缩空气。压缩空气透过多孔板进入槽的上层,槽内粉状物料受到下面空气衬托而像流体般地产生运动,由槽的较高处流向较低处,从而达到运输目的。
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