Open AccessVolumetric Lagrangian particle tracking measurements of jet impingement on convex cylinder
Author(s) -
Mirae Kim,
Daniel Schanz,
Matteo Novara,
Andreas Schröder,
Kyung Chun Kim
Publication year - 2021
Publication title -
international symposium on particle image velocimetry.
Language(s) - English
Resource type - Journals
ISSN - 2769-7576
DOI - 10.18409/ispiv.v1i1.162
Subject(s) - jet (fluid) , cylinder , mechanics , tracking (education) , surface (topology) , curvature , lagrangian particle tracking , particle (ecology) , regular polygon , lagrangian , body surface , flow (mathematics) , materials science , physics , geometry , turbulence , mathematics , geology , psychology , pedagogy , oceanography , mathematical physics
Impinging jets are widely used for heat and mass transfer because they are applicable to any type of body and can be easily implemented. They are also used in various industrial fields and design techniques. Previous research investigated e.g. a jet impinging onto a flat surface. However, since most of the mechanical parts have curvature on their surface, it is necessary to study more detailed properties of the jet impinging on a curved surface using advanced measurements. Therefore, in this study, three-dimensional flow structures of a round jet impinging on a convex cylinder surface were measured using volumetric Lagrangian particle tracking (LPT).