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  Interfacial-dominated torque response in liquid–liquid Taylor–Couette flows

Hori, N., Ng, C. S., Lohse, D., & Verzicco, R. (2023). Interfacial-dominated torque response in liquid–liquid Taylor–Couette flows. Journal of Fluid Mechanics, 956: A15. doi:10.1017/jfm.2023.29.

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Hori, Naoki, Author
Ng, Chong Shen, Author
Lohse, Detlef1, Author           
Verzicco, Roberto, Author
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1Max Planck Institute for Dynamics and Self-Organization, Max Planck Society, ou_2063285              

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 Abstract: Immiscible and incompressible liquid–liquid flows are considered in a Taylor–Couette geometry and analysed by direct numerical simulations coupled with the volume-of-fluid method and a continuum surface force model. The system Reynolds number Re ≡riωid/ν is fixed to 960, where the single-phase flow is in the steady Taylor vortex regime, whereas the secondary-phase volume fraction ϕ and the system Weber number We ≡ ρr2 iω2 id/σ are varied to study the interactions between the interface and the Taylor vortices. We show that different Weber numbers lead to two distinctive flow regimes, namely an advection-dominated regime and an interface-dominated regime. When We is high, the interface is easily deformed because of its low surface tension. The flow patterns are then similar to the single-phase flow, and the system is dominated mainly by advection (advection-dominated regime). However, when We is low, the surface tension is so large that stable interfacial structures with sizes comparable to the cylinder gap can exist. The background velocity field is modulated largely by these persistent structures, thus the overall flow dynamics is governed by the interface (interface-dominated regime). The effect of the interface on the global system response is assessed by evaluating the Nusselt number Nuω based on the non-dimensional angular velocity transport. It shows non-monotonic trends as functions of the volume fraction ϕ for both low and high We. We explain how these dependencies are closely linked to the velocity and interfacial structures.

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Language(s): eng - English
 Dates: 2023-02-012023
 Publication Status: Issued
 Pages: -
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 Rev. Type: Peer
 Identifiers: DOI: 10.1017/jfm.2023.29
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Project name : This publication is part of the project ‘Numerical simulations on bubbly drag reduction in turbulent flow and on sound propagation in bubbly flow (NUM)’, project no. P17-07 of the research programme ‘AQUA – Water Quality in Maritime Hydrodynamics’, which is partly financed by the Dutch Research Council (NWO). C.S.N. also acknowledges funding by the Netherlands Organisation for Health Research and Development (ZonMW), project no. 10430012010022: ‘Measuring, understanding & reducing respiratory droplet spreading’. The simulations in this work were carried out on the national e-infrastructure of SURFsara, a subsidiary of SURF cooperation, the collaborative ICT organization for Dutch education and research, MareNostrum 4 which is based in Spain at the Barcelona Computing Center (BSC) under PRACE projects 2018194742, 2020225335 and 2020235589, and on Irene at Trés Grand Centre de calcul du CEA (TGCC) under PRACE project 2019215098.
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Title: Journal of Fluid Mechanics
Source Genre: Journal
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Publ. Info: Cambridge [etc.] : Cambridge University Press [etc.]
Pages: 29 Volume / Issue: 956 Sequence Number: A15 Start / End Page: - Identifier: ISSN: 0022-1120
CoNE: https://pure.mpg.de/cone/journals/resource/954925340716