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Hauptverfasser: Li, Huixin, Asl, Mohammad Mehdi Zamani, Bäuerlein, Bastian, Avila, Kerstin, Xu, Duo, Avila, Marc
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2509.10264
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author Li, Huixin
Asl, Mohammad Mehdi Zamani
Bäuerlein, Bastian
Avila, Kerstin
Xu, Duo
Avila, Marc
author_facet Li, Huixin
Asl, Mohammad Mehdi Zamani
Bäuerlein, Bastian
Avila, Kerstin
Xu, Duo
Avila, Marc
contents One of the most widespread canonical devices for fluid mixing is the T-shaped mixer, in which two opposing miscible liquid streams meet at a junction and then mix along a main channel. Laminar steady and time-periodic flows in T-shaped mixers have been thoroughly studied, but turbulent flows have received much less scrutiny despite their prevalence in applications. We here introduce a novel experimental setup with a hydraulic diameter of four centimetres that enables the optical study of turbulent mixing at small scales. Using this setup, we perform two-dimensional particle image velocimetry and planar laser-induced fluorescence measurements. First, we successfully replicate characteristic flow regimes observed in micro-scale T-shaped mixers at low Reynolds numbers. We then focus on the turbulent regime and characterize the turbulent kinetic energy and dissipation along the mixing channel. Further, we measure the scalar concentration variance and its corresponding probability density function and spectra. The latter exhibits an incipient Batchelor scaling. We estimate the mechanical-to-scalar timescale ratio and examine the link between the turbulent velocity and scalar fields. The measurement data are compared with model predictions and correlations used in engineering practice, and with our own direct numerical simulations performed with a spectral-element code.
format Preprint
id arxiv_https___arxiv_org_abs_2509_10264
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Experimental study of turbulent mixing in a T-shaped mixer
Li, Huixin
Asl, Mohammad Mehdi Zamani
Bäuerlein, Bastian
Avila, Kerstin
Xu, Duo
Avila, Marc
Fluid Dynamics
One of the most widespread canonical devices for fluid mixing is the T-shaped mixer, in which two opposing miscible liquid streams meet at a junction and then mix along a main channel. Laminar steady and time-periodic flows in T-shaped mixers have been thoroughly studied, but turbulent flows have received much less scrutiny despite their prevalence in applications. We here introduce a novel experimental setup with a hydraulic diameter of four centimetres that enables the optical study of turbulent mixing at small scales. Using this setup, we perform two-dimensional particle image velocimetry and planar laser-induced fluorescence measurements. First, we successfully replicate characteristic flow regimes observed in micro-scale T-shaped mixers at low Reynolds numbers. We then focus on the turbulent regime and characterize the turbulent kinetic energy and dissipation along the mixing channel. Further, we measure the scalar concentration variance and its corresponding probability density function and spectra. The latter exhibits an incipient Batchelor scaling. We estimate the mechanical-to-scalar timescale ratio and examine the link between the turbulent velocity and scalar fields. The measurement data are compared with model predictions and correlations used in engineering practice, and with our own direct numerical simulations performed with a spectral-element code.
title Experimental study of turbulent mixing in a T-shaped mixer
topic Fluid Dynamics
url https://arxiv.org/abs/2509.10264