Bitong Wang scite author profile

We investigate the scaling properties of the primary flow modes and their sensitivity to aspect ratio in a liquid gallium (Prandtl number $Pr = 0.02$ ) convection system through combined laboratory experiments and numerical simulations. We survey cylindrical aspect ratios $1.4 \le \varGamma \le 3$ and Rayleigh numbers $10^{4} \lesssim Ra \lesssim 10^{6}$ . In this range the flow is dominated by a large-scale circulation (LSC) subject to low-frequency oscillations. In line with previous studies, we show robust scaling of the Reynolds number $Re$ with $Ra$ and we confirm that the LSC flow is dominated by a jump-rope vortex (JRV) mode whose signature frequency is present in velocity and temperature measurements. We further show that both $Re$ and JRV frequency scaling trends are relatively insensitive to container geometry. The temperature and velocity spectra consistently show peaks at the JRV frequency, its harmonic and a secondary mode. The relative strength of these peaks changes and the presence of the secondary peak depend highly on aspect ratio, indicating that, despite having a minimal effect on typical velocities and frequencies, the aspect ratio has a significant effect on the underlying dynamics. Applying a bandpass filter at the secondary frequency to velocity measurements reveals that a clockwise twist in the upper half of the fluid layer coincides with a counterclockwise twist in the bottom half, indicating a torsional mode. For aspect ratio $\varGamma = 3$ , the unified LSC structure breaks down into multiple rolls in both simulation and experiment.

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Oxidation of WC-TiC-TaC-Co hard materials at relatively low temperature

Huang

Xiong

Guo

et al. 2015

International Journal of Refractory Metals and Hard Materials

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Microscale mechanisms of ultrasound velocity measurement in metal melts

Wang

Kelley

2021

Flow Measurement and Instrumentation

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Laboratory model of electrovortex flow with thermal gradients for liquid metal batteries

et al. 2022

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Investigation of Echo Source and Signal Deterioration in Ultrasound Measurement of Metal Melt

Wang

Caldwell

Allanore

et al. 2022

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Bitong Wang

Oscillations of the large-scale circulation in experimental liquid metal convection at aspect ratios 1.4–3

Oxidation of WC-TiC-TaC-Co hard materials at relatively low temperature

Microscale mechanisms of ultrasound velocity measurement in metal melts

Laboratory model of electrovortex flow with thermal gradients for liquid metal batteries

Investigation of Echo Source and Signal Deterioration in Ultrasound Measurement of Metal Melt

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