# Angular momentum transport and flow organisation in Taylor-Couette flow   at radius ratio of $\eta=0.357$

**Authors:** Andreas Froitzheim, Sebastian Merbold, Rodolfo Ostilla-M\'onico, and Christoph Egbers

arXiv: 1907.12137 · 2019-07-30

## TL;DR

This study investigates angular momentum transport in turbulent Taylor-Couette flow at a small radius ratio, revealing complex scaling behavior, flow state transitions, and vortex dynamics through experiments and simulations.

## Contribution

It provides new insights into the flow organization, torque maxima, and scaling transitions in Taylor-Couette flow at a small radius ratio, combining experimental and numerical approaches.

## Key findings

- Non-power-law scaling of momentum transport with Re_S.
- Maximum torque at specific counter-rotation ratio due to vortex strengthening.
- Good agreement between experimental and numerical Nusselt numbers.

## Abstract

We experimentally and numerically investigate the angular momentum transport in turbulent Taylor-Couette flow for independently rotating cylinders at a small radius ratio of $\eta=0.357$ for various shear Reynolds numbers ($4.5\times 10^3 \leq Re_S \leq 1.2 \times 10^5$) and ratios of angular velocities ($-0.5 \leq \mu \leq 0.2$). \red{The momentum transport in terms of the pseudo-Nusselt number ${Nu}_\omega$ does not show a pure power law scaling with the forcing $Re_S$ and features non-constant effective scaling between $1.3\times 10^4 \leq Re_S \leq 4 \times 10^4$. This transition lies in the classical turbulent regime and is caused by the curvature-dependent limited capacity of the outer cylinder to emit small-scale plumes at a sufficient rate to equalize the angular momentum in the bulk.} For counter-rotating cylinders, a maximum in the torque occurs at $\mu_{\max}=-0.123 \pm 0.030$. The origin of this maximum can be attributed to a strengthening of turbulent Taylor vortices, which is revealed by the flow visualization technique. In addition, different flow states at $\mu_{\max}$ concerning the wavelength of the large-scale vortices have been detected. The experimental and numerical results for the Nusselt number show a very good agreement.

## Full text

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## Figures

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## References

41 references — full list in the complete paper: https://tomesphere.com/paper/1907.12137/full.md

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Source: https://tomesphere.com/paper/1907.12137