Dual-turbine hydrodynamic torque converter is a kind of power shunt fraction hydrodynamic torque converters, which is one of the important parts in transmission system.
本文结合吉林省科技厅应用基础研究项目“双涡轮液力变矩器三维流动与转矩分配特性研究(20080538)”,基于三维流动理论和计算流体动力学(CFD)对双涡轮液力变矩器的内部流动特性进行深入细致的研究,在此基础上总结其转矩分配规律,并对其叶栅系统进行优化得到更为合理的方案,同时进行试验研究验证优化结果的正确性。
Numerical simulation about the first stage of a power turbine was performed using 3D viscous code,showing that the details in this turbine stage were captured.
采用三维粘性程序对某型动力涡轮的第一级进行了数值模拟,模拟结果捕捉到了该涡轮级叶栅的内部流的流动细节,展示了涡轮叶栅端壁和型面流动及叶栅通道内的三维流动结构。
Two speed control loop schemes for power turbines of turboshaft engine are analyzed by comparison.
比较分析了航空涡轴发动机动力涡轮转速回路的2种控制方案(单回路控制方案和串级控制方案)。
The working conditions of power turbine of gas turbine during tested with external force driving were presented.
对燃气轮机动力涡轮用外力拖动作试验时的有关工作状况作了初步分析。
In this paper two advanced aerodynamic blade design methods were developed for horizontal axis wind turbines,namely PROPID and PROPGA.
在实际风轮设计中的成功使用证明 ,PROPID和 PROPGA是一种强有力的设计工具 ,两者的结合使用可以得到最佳的风力涡轮气动性
Most design and analysis methods widely used for horizontal axis wind turbine performance prediction are based on the traditional 2D blade element/momentum theoretical methods,which are underpredict the wind turbine power output in high wind speed due to effects of rotation on the wind turbine blade.
传统的水平轴风力涡轮设计与性能预估方法是基于经典的叶素理论以及二维风洞翼型气动数据 ,为有效地设计高性能的风力涡轮 ,必须对该方法不能处理的失速延迟现象进行修正。
Most design and analysis methods widely used for horizontal axis wind turbine performance prediction are based on the traditional 2 D blade element/momentum theory(BEMT)methods,which are inadequate and underpredict the wind turbine rotor power output in the high wind/peak power condition,owing to effects of rotation on the wind turbine blade boundary layer.
目前广泛使用的水平轴风力涡轮设计及性能预估方法是基于经典的二维叶素理论以及二元风洞翼型实验数据。
Research on the Torque Distribution Characteristics of Dual-Turbine Torque Converter
双涡轮液力变矩器转矩分配特性研究
Numerical Analysis of Flow Field in Turbine of Twin-Turbo Hydrodynamic Torque Converter
双涡轮液力变矩器的涡轮流场数值分析
General specifications of double--Turbine torque converter
GB/T10856-1989双涡轮液力变矩器通用技术条件
Torus Streamline Method Design of 3-element Centripetal-turbine Hydraulic Torque Converters
三元件向心涡轮液力变矩器环面流线法设计
Single-stage centripetal turbine hydrodynamic torque converters-Types and basic parameters
GB/T10429-1989单级向心涡轮液力变矩器型式和基本参数
Modal Analysis for Torque Converter Based on ANSYS
基于ANSYS的液力变矩器叶轮模态分析
The Thermo-property Analysis on Torque Converter of 50 Wheel Loader;
50型轮式装载机液力变矩器工作热特性分析
Main flow features analysis on impeller of super flat automotive torque converter
超扁平化液力变矩器泵轮流场主流特征分析
Regeneration Technique by Surface Strengthening for Stator Seat of Hydraulic Torque Converter
液力变矩器导轮座的表面强化再生技术
torque converter oil temperature telltale
液力变矩器油温警告灯
Research of the Double Clutch Torque Converter Lockup Damping and Control;
双离合器式液力变矩器的闭锁减振及其控制的研究
Analysis on the Flow Field of Torque Converter Equipped in Off-road Car and Experimental Research on the Stator;
越野车液力变矩器流场分析及其导轮流场实验研究
Research on Slip Control of Lock-up Clutch in Torque Converter;
液力变矩器闭锁离合器滑摩控制研究
Research of Locking Controller for Hydraulic Torque Converters on Dozers
推土机液力变矩器闭锁控制器的研究
Calculation and analysis of axial force in hydrodynamic torque converter based on CFD
液力变矩器轴向力的CFD计算与分析
Hydrodynamic torque converter--Method of performance tests
GB/T7680-1987液力变矩器性能试验方法
Research on Series Design Based on the Hydrodynamic Torque Converter W305;
基于W305液力变矩器的系列化研究
Study on Parameters Optimization and Shaping of the Hydrodynamic Torque Converter Blade;
液力变矩器叶栅参数优化及造型研究