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基于CFD的液力变矩器等效参数性能预测模型 被引量:19

CFD Analysis-based Torque Converter Performance Prediction Model with Equivalent Parameters
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摘要 从保证冲击损失计算精度的角度出发,推导了一维束流理论性能预测模型中各参数基于计算流体力学(CFD)分析的等效表达式.从CFD分析结果中提取各叶轮的损失功率,运用最小二乘法确定各损失项的损失系数,进而得到液力损失的构成情况,为进一步改进设计提供依据.运用得到的等效参数与各项损失系数修正一维束流理论性能预测模型,修正后的等效参数性能预测模型的泵轮转矩系数与CFD分析最大偏差减小至3.2%以内.改变液力变矩器的叶形参数,使失速时泵轮转矩系数提高6.9%,最高效率降低2.5%.分别使用等效参数性能预测模型与CFD分析重新计算,等效参数性能预测模型的泵轮转矩系数与CFD计算结果偏差在7.3%以内,仍然保持较好的一致性. The correlation between parameters of one dimensional flow model and computational fluid dynamics (CFD) results is derived from guaranteeing precision of estimation of incidence loss. Energy loss within each impeller passages are extracted from CFD results, and the exact energy loss coefficients are achieved by the least mean square method which minimizes the deviation of the calculated energy loss from CFD results. Then, the component of energy loss is analyzed, which provides reference for further modification of design. The one dimensional flow model is modified by taking account of the equivalent parameters and energy loss coefficients, and the deviation of predictive pump torque capacity from CFD results is reduced within 3. 2%. Furthermore, this deviation still keeps less than 7.3% after modifying the shape parameters of blades which leads to 6.9 % increment of torque capacity at rotating stall and 2. 5% decrement of peak efficiency.
作者 吴光强 王立军
机构地区 同济大学汽车学院 东京大学生产技术研究所
出处 《同济大学学报(自然科学版)》 EI CAS CSCD 北大核心 2013年第1期121-127,共7页 Journal of Tongji University:Natural Science
关键词 液力变矩器 计算流体力学(CFD)分析 一维束流模型 等效参数 torque converter computational fluid dynamics (CFD) analysis one dimensional flow model equivalent parameters
分类号 U463.22 [机械工程—车辆工程]
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  • 1葛安林,田华,王健.基于三维流场计算的变矩器改型设计[J].江苏大学学报(自然科学版),2005,26(3):206-208. 被引量:6
  • 2王健,葛安林,雷雨龙,田华.液力变矩器叶片三维成型法及其性能分析[J].吉林大学学报(工学版),2007,37(1):43-47. 被引量:12
  • 3Ejiri E M, Kubo. Influence of the flatness ratio of an automotive torque converter on hydrodynamic performance [J].Journal of Fluids Engineering, 1999, 121 : 614 - 620. 被引量:1
  • 4Kim Giwoo, Jaeduk Jang. Effects of stator shapes on hy-draulic performances of an automotive torque converter with a squashed torus [ J ]. SAE Paper, 2002 - O1 - 0886. 被引量:1
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  • 6Yu Dong. Torque converter CFD engineering. Part I: torque ratio and K factor improvement through stator modifications [ J ]. SAE Paper,2002 - 01 - 0883. 被引量:1
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  • 8Flack R K. Fundamental analysis of the secondary flows and jet-wake in a torque converter pump. Part II: flow in a curved stationary passage and combined flows [ J ]. Journal of Fluids Engineering ,2005, 127:75 - 82. 被引量:1
  • 9Shin Sehyun, Kim Kyung-Joon, Kim Dong-Jin, et al. The Effect of Reactor Blade Geometry on the Performance of an Automotive Torque Converter[ J ]. SAE Paper 2002 - 01 -0885. 被引量:1
  • 10Song Kyoung, Cho JangHyung, Kim MunSung, et al. Development of the Integrated Process for Torque Converter Design and Analysis [ J ]. SAE Paper 2008 - 01 - 0785. 被引量:1

共引文献42

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二级引证文献48

同济大学学报(自然科学版)
2013年 第1期

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