The effect of fluid shear on oscillating bubbly flows

The impact of fluid shear on the bubble distribution in channel flows with periodically oscillating pressure gradient is examined by direct numerical simulations. Equal-sized and nearly circular bubbles are placed randomly in the channel at the initial time. In the absence of shear, the bubbles form...

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Veröffentlicht in:	Physics of fluids (1994) 2019-04, Vol.31 (4)
Hauptverfasser:	Lin, Shengxiang, Lu, Jiacai, Tryggvason, Grétar, Zhang, Ying
Format:	Artikel
Sprache:	eng
Schlagworte:	Bubbles Computer simulation Fluid dynamics Physics Shear flow Shear rate Three dimensional flow Two dimensional flow Viscosity
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container_title	Physics of fluids (1994)
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creator	Lin, Shengxiang Lu, Jiacai Tryggvason, Grétar Zhang, Ying
description	The impact of fluid shear on the bubble distribution in channel flows with periodically oscillating pressure gradient is examined by direct numerical simulations. Equal-sized and nearly circular bubbles are placed randomly in the channel at the initial time. In the absence of shear, the bubbles form columns spanning the width of the channel, but a strong enough shear breaks up the columns, leading to a more random bubble distribution. The effect of the nondimensional shear rate on the flow can be divided into low shear rate, moderate shear rate, and high shear rate regimes. The flow dynamics is also influenced by the Reynolds and the Euler number, and when these numbers decrease, the low shear rate regime, with stable tilted columns of bubbles, becomes smaller. Comparison of results for two- and three-dimensional flows shows that the dynamics observed in two-dimensional flows is also found in three dimensions.
doi_str_mv	10.1063/1.5089664
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Equal-sized and nearly circular bubbles are placed randomly in the channel at the initial time. In the absence of shear, the bubbles form columns spanning the width of the channel, but a strong enough shear breaks up the columns, leading to a more random bubble distribution. The effect of the nondimensional shear rate on the flow can be divided into low shear rate, moderate shear rate, and high shear rate regimes. The flow dynamics is also influenced by the Reynolds and the Euler number, and when these numbers decrease, the low shear rate regime, with stable tilted columns of bubbles, becomes smaller. 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Equal-sized and nearly circular bubbles are placed randomly in the channel at the initial time. In the absence of shear, the bubbles form columns spanning the width of the channel, but a strong enough shear breaks up the columns, leading to a more random bubble distribution. The effect of the nondimensional shear rate on the flow can be divided into low shear rate, moderate shear rate, and high shear rate regimes. The flow dynamics is also influenced by the Reynolds and the Euler number, and when these numbers decrease, the low shear rate regime, with stable tilted columns of bubbles, becomes smaller. 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subjects	Bubbles Computer simulation Fluid dynamics Physics Shear flow Shear rate Three dimensional flow Two dimensional flow Viscosity
title	The effect of fluid shear on oscillating bubbly flows
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