1.
Numerical Research on the 3-D Complex Viscous Flow in Radial Turbo-machinery;
径流式叶轮机械三维复杂流动的数值研究
2.
Research of the Approach for Designing the Scroll-Nozzle's Vanes of Radial Inflow Turbine Based on Lower Flow Loss Function Figure;
径流式涡轮喷嘴环低流损函数叶片设计方法研究
3.
The Research on Numerical Simulation for Analysis of Liquid-solid Two-phase Flow in the Centrifugal Impeller;
径向式叶轮内部液固两相流动分析与数值模拟研究
4.
The Influence of Pump Impeller Diameter on the Hydraulic Performance of Low Lift Vertical Flow Pump System;
叶轮直径对低扬程立式轴流泵装置水力性能的影响
5.
In the lobed impeller the measuring chambers are the space between the lobes and the meter housing.
叶轮式测量室是叶轮和流量叶壳体间的空间。
6.
CFD analysis on effects of impeller outlet diameter on flow field in centrifugal pump
叶轮外径对离心泵内流影响的CFD分析
7.
The Flow Field Calculation in Francis Turbine Runner with Half Vanes
带半叶片的混流式水轮机转轮的流场计算
8.
Large Eddy Simulation of the Turbulent Flow Field in Guide Vane Flow Passages of a Mixed-flow Type Water Turbine
混流式水轮机导叶叶道内湍流场的大涡模拟
9.
The Water Tunnel Experiment Study of Developed Cascade Near Francis Runner Band Cavitation Area and Profile Improvement
混流式转轮近下环叶栅水洞实验研究
10.
Numerical Investigation on Pressure Fluctuations Induced by Interblade Vortices in a Runner of Francis Turbine
混流式水轮机转轮区叶道涡压力脉动数值研究
11.
One way Fluid Solid Interaction of Unshrouded Centrifugal Compressor Impeller Blade
半开式离心压缩机叶轮叶片单向流固耦合分析
12.
Radial turbocharger--Connection dimensions
GB/T9485-1988径流式涡轮增压器连接尺寸
13.
Dynamic Characteristic Study of Francis Hydro Turbine Blades in Fluid-Structure Interaction;
混流式水轮机叶片流固耦合动力特性研究
14.
Interblade Wortex Numerical Simulation of Whole Flow Passage in Francis Turbine
混流式水轮机全流道的叶道涡模拟计算
15.
The Assistant Effect of Electromagnetic Axial Pump on Left Ventricle of Heart
电磁式叶轮轴流泵对左心室辅助的作用
16.
The Development of Combined Blad Template for Francis Turbine and Its Application
混流式转轮叶片组合样板设计的改进及应用
17.
Research on the Digital Machining Simulation for Francis Hydro Turbine s Blade;
混流式水轮机叶片数字化加工仿真技术研究
18.
Prediction of Opening Type Axial-Impeller Using a Surface Panel Method;
面元法预测开敞式轴流叶轮水动力性能