Numerical Investigation of the Cavitation-Vortex Interaction Around a Twisted Hydrofoil with Emphasis on the Vortex Identification Method

Jie Chen, Biao Huang*, Qin Wu, Guoyu Wang

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

Abstract

Large eddy simulations combined with Zwart-Gerber-Belamri cavitation model is applied to investigate the physical interaction of the cavitation-vortex dynamics around a 3D twisted hydrofoil. The vortex structure of the hydrofoil surface at a typical instant is divided into three regions by the iso-surfaces of Ω method, i.e., the attach region-A, the shedding region-B and C. The results show that each region presents the different characteristic vortex structure, the attach region-A is primary and the secondary U-type vortex, the shedding region-B is O-shape vortex and 3D waves of the vortex structure, and the shedding region-C is the large-scale vortex structures. Then, the different vortex identification methods, namely, ω criterion, Q criterion, Ω method and Liutex method, is employed to capture vortex structures of unsteady cavitating flow. The 3D waves of the vortex structure and large-scale vortex structures are accurately captured with other vortex identification method, except for the ω criterion. It is noticeable that Liutex method can not only clearly display the U-type vortex structure, but also accurately describe its direction. The distribution of Liutex inside the primary U-type vortex structure is symmetric, and the head magnitude of U-type vortex is smaller than that of legs. The average magnitude of Liutex at the core is 1394.46. For the secondary U-type vortex structure, the magnitude of votex structure near the center of the hydrofoil is greater than that of the other side, and the average value is 738.1.

Original languageEnglish
Title of host publicationLiutex and Third Generation of Vortex Definition and Identification
Subtitle of host publicationAn Invited Workshop from Chaos 2020
PublisherSpringer International Publishing
Pages439-456
Number of pages18
ISBN (Electronic)9783030702175
ISBN (Print)9783030702168
DOIs
Publication statusPublished - 1 Jan 2021

Keywords

  • Cavitation-vortex structure
  • Large eddy simulations
  • Liutex
  • U-type vortex

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