Numerical simulation of the flow field of a flat torque converter

Qing Dong Yan; Cheng Liu; Wei Wei

Numerical simulation of the flow field of a flat torque converter

Qing Dong Yan, Cheng Liu^*, Wei Wei

^*Corresponding author for this work

School of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

A flexible flat torque converter was proposed to fulfill the requirement of miniaturization and power density maximization for automobiles. Constructed by two arcs joined by lines, the torus was designed directly from design path. The influence of flatness on the performance of the torque converter was evaluated. The software CFX and standard k-ε model were adopted to simulate the internal flow fields of the torque converter under different flatness ratios. The results indicated that the performance of the torque converter got worse as the flatness declined, but the capacity of pump increased. The efficiency and the torque ratio dropped slightly as the flatness ratio decreased. So the torque converter could be squashed appropriately to get high power density without too much efficiency sacrifice. But when the flatness ratio was below 0.2, there was a significant drop in the efficiency.

Original language	English
Pages (from-to)	309-314
Number of pages	6
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	21
Issue number	3
Publication status	Published - Sept 2012

Keywords

3D flow simulation
Efficiency
Flatness ratio
High power density
Torque converter

Cite this

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title = "Numerical simulation of the flow field of a flat torque converter",

abstract = "A flexible flat torque converter was proposed to fulfill the requirement of miniaturization and power density maximization for automobiles. Constructed by two arcs joined by lines, the torus was designed directly from design path. The influence of flatness on the performance of the torque converter was evaluated. The software CFX and standard k-ε model were adopted to simulate the internal flow fields of the torque converter under different flatness ratios. The results indicated that the performance of the torque converter got worse as the flatness declined, but the capacity of pump increased. The efficiency and the torque ratio dropped slightly as the flatness ratio decreased. So the torque converter could be squashed appropriately to get high power density without too much efficiency sacrifice. But when the flatness ratio was below 0.2, there was a significant drop in the efficiency.",

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author = "Yan, {Qing Dong} and Cheng Liu and Wei Wei",

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AB - A flexible flat torque converter was proposed to fulfill the requirement of miniaturization and power density maximization for automobiles. Constructed by two arcs joined by lines, the torus was designed directly from design path. The influence of flatness on the performance of the torque converter was evaluated. The software CFX and standard k-ε model were adopted to simulate the internal flow fields of the torque converter under different flatness ratios. The results indicated that the performance of the torque converter got worse as the flatness declined, but the capacity of pump increased. The efficiency and the torque ratio dropped slightly as the flatness ratio decreased. So the torque converter could be squashed appropriately to get high power density without too much efficiency sacrifice. But when the flatness ratio was below 0.2, there was a significant drop in the efficiency.

KW - 3D flow simulation

KW - Efficiency

KW - Flatness ratio

KW - High power density

KW - Torque converter

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JF - Journal of Beijing Institute of Technology (English Edition)

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ER -

Numerical simulation of the flow field of a flat torque converter

Abstract

Keywords

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