Simulation and Validation of Cavitating Flow in a Torque Converter with Scale-Resolving Methods

Jiahua Zhang, Qingdong Yan, Cheng Liu*, Meng Guo, Wei Wei

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

3 Citations (Scopus)

Abstract

The purpose of this paper is to study the mechanism and improve the prediction accuracy of transient torque converter cavitation flow by the application of scale-resolving simulation (SRS) methods with particular focus on cavitation vortex flow. Firstly, the numerical analysis of the entire internal flow field of the torque converter was carried out using different turbulence models, and the prediction accuracy of the hydraulic characteristics of the adopted models was analyzed and validated via test data. Secondly, the cavitation and turbulence behavior in the internal flow field were analyzed, and the blade surface pressure according to different turbulence models was compared and validated through test data. Finally, the transient cavitation characteristics of the flow field were studied based on the stress-blended eddy simulation (SBES) model. The prediction accuracy of the cavitation flow field simulation of the torque converter is significantly improved using the SRS model. The maximum error of capacity constant, torque ratio and efficiency are reduced to 3.1%, 2.3%, and 1.3% at stall, respectively. The stator is more prone to cavitation than pump and turbine. The SBES model has the highest prediction accuracy in multiple measurement points, and the maximum deviation can reach 13.32% under stall. Attached cavitation bubbles and periodic shedding cavitation can be found in the stator, and the evolution period is about 0.0036 s, i.e., 279 Hz. The prediction accuracy of different models was compared and analyzed, which has important guiding significance for the high-precision prediction and analysis of fluid machinery.

Original languageEnglish
Article number489
JournalMachines
Volume11
Issue number4
DOIs
Publication statusPublished - Apr 2023

Keywords

  • cavitation-vortex structure
  • scale-resolving simulation
  • torque converter
  • transient cavitation

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Zhang, J., Yan, Q., Liu, C., Guo, M., & Wei, W. (2023). Simulation and Validation of Cavitating Flow in a Torque Converter with Scale-Resolving Methods. Machines, 11(4), Article 489. https://doi.org/10.3390/machines11040489