pump impeller
英 [pʌmp ɪmˈpɛlə]
美 [pʌmp ɪmˈpɛlər]
网络 泵轮; 泵叶轮; 泵推动器; 泵配件; 叶轮泵
双语例句
- Variable Angle adjustment from the structure, the axial flow pump impeller with enormous wheels, easy to install adjustable angle blade.
变角调节从构造来看,轴流泵叶轮具有巨大的轮毂,便于安装可调角度的叶片。 - The causes of the circulating water pump impeller cavitations are analyzed, and good results are achieved through the use of wear putty to repair the impeller.
分析了循环水泵叶轮汽蚀的原因,通过采用耐磨修补剂对叶轮修补的方法,取得了良好的效果。 - It's essential, for the suction of pump may reduce the pressure, which could boil the condensate water flowing pump impeller after pumping.
这是很必要的,因为泵的吸口可能降低压力,使得高温冷凝水被抽吸流过泵叶轮时发生沸腾。 - The relation between the flow conditions and material surface abrasive erosion of the pump impeller has been studied.
研究了过流条件与泵轮叶片表面冲蚀磨损的关系。 - This pump impeller blades can be adjusted automatically to adapt to speed, fluid viscosity and pressure.
这种泵的叶轮叶片可以自动调节来适应转速、流体粘度和不同压力。 - The centrifugal pump impeller and more generally for such.
一般的离心泵叶轮多为此类。 - Optimization design of multiphase pump impeller based on orthogonal design method
基于正交设计方法的混输泵叶轮优化设计 - The type of the pump impeller and pump and centrifugal pump with a volume effect of particles suspended in mid-stream leaf out of date, do not hit any part of the pump, it is good non-destructive.
该型叶轮的泵兼具有容积泵和离心泵的作用,悬浮性颗粒在叶片中流过时,不撞击泵内任何部位,故无损性好。 - Pump impeller loose, grinding to pump out the bottom end caps.
水泵叶轮松动,磨到水泵出水底端盖。 - Influence of Pump Impeller Diameter on the Hydraulic Characteristics of Low Head Pump System
水泵叶轮直径对低扬程泵装置水力性能的影响 - Instead the pump impeller should be trimmed or valves located else where in the system to partially throttle the flow.
代替泵叶轮应该经过修整,或者阀门应该位于系统部分节流的地方。 - In order to improve the dynamical characteristic of the structure and enhance its working reliability, modality analysis is done on an automobile pump impeller with the finite element software ANSYS.
为了改善结构的动态特性,提高其工作的可靠性,结合有限元分析软件ANSYS,对某汽车水泵叶轮进行模态分析。 - Research on Property of Super-high Manganese Steel and High Chromium Cast Iron and the Appliance Research of LFC Process on Large Heat-resistant Crucible and Water Pump Impeller
超高锰钢与高铬铸铁的性能研究及消失模技术在大型坩埚与水泵叶轮上的应用研究克鲁普铬钼钒高速钢 - The Dynamic Balance Correction of Big and Medium-Sized Liquid-Ring Vacuum Pump Impeller
大、中型液环真空泵叶轮的动平衡校正油压自动平衡压底机 - Large-eddy Simulation and Analysis of Turbulent Flow in Axial Pump Impeller A Simulation and Analysis of Different Scroll Profiles ′ Interior Flow Field
轴流泵叶轮内部流场大涡模拟及分析不同涡旋型线压缩腔流场的模拟分析 - Large-eddy Simulation and Analysis of Turbulent Flow in Axial Pump Impeller
轴流式涡轮喷气发动机轴流泵叶轮内部流场大涡模拟及分析 - The cylinder tubes of the flow-meters were inserted into the suction chamber before the pump impeller, and the flow measurement of large pump was achieved on the condition of no straight pipes.
在大型低扬程泵站的单泵流量现场测试中,绕流管插入泵叶轮前吸水室取压差,即可实现无等径直管条件水泵流速、流量测定。 - The flow of real fluid in centrifugal pump impeller and mechanism of flow phenonmenon have been analysed.
在上述基础上,建立了离心泵叶轮的反问题计算方法。 - Shell brings together not only by the pump impeller liquid releases, but it is also an energy conversion device.
泵壳不仅汇集由叶轮甩出的液体,同时又是一个能量转换装置。 - Main Oil Pump Impeller Disruption Accident's Reason Analysis and Processing Method
汽轮机主油泵叶轮碎裂原因分析及处理方法 - Rapid development of pulp pump impeller based on RE and RP technology
基于RE和RP技术的纸浆泵叶轮快速开发 - Such large-scale axial flow pump impeller used for the many.
这种叶轮多为大型轴流泵采用。 - Design and emulation of 3-D CAD system on centrifugal pump impeller
离心泵叶轮的三维CAD系统设计及仿真 - This small pump impeller for many.
这种叶轮多用于小型泵。 - First the traditional lifting design method was applied to design the axial flow pump impeller on given flow parameters.
首先采用传统的升力法对给定参数的轴流泵叶轮进行了设计。 - Both lifting design method and quasi-three-dimensional design method has been applied to the design of axial flow pump impeller.
本文分别采用升力法和准三维的方法对轴流泵叶轮进行了设计计算和性能预估。 - The forces are complicated when pump impeller and turbine are working, so the sympathetic vibration may be produced.
由于泵轮和涡轮在运行状态下受力情况比较复杂,可能会产生共振。 - As a result of the sympathetic vibration, pump impeller and the turbine will be destroyed.
涡轮和泵轮在长期的共振情况下,会发生疲劳破坏。