Haruhi Oyaizu scite author profile

Three-dimensional evolution of local fluid flows and surface shapes under partial collapse of a water column is characterized during computational experiments using three-dimensional large eddy simulation in this paper. The free-surface behaviors highly depend on the collapse level and ambient water layer depth via mechanical interactions between the surface and vortices. It has been found major three modes of the splashing responses of the free-surfaces and vortex structures; (i) forward projection of secondary jets, which organizes a typical rib-like vortex structure stretched underneath the jets, (ii) backward jet projection with an inverse form of the rib structure, and (iii) blob-like waves induced by an array of the horizontal roller vortices. These findings provide new perspectives to understand wave breaking behaviors as well as practical assessments for the fluid responses in the splashing area for sea wall overflow and overtopping.

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Bubble-turbulence interactions model in a stochastic-LES framework

Watanabe¹,

Oyaizu²,

Niida³

2014

Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal E

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This paper presents a novel stochastic-LES hybrid model for favre averaged bubble-turbulence interactions in free-surface flows. The current model is found to be capable of computing local behaviors of dense bubble flows coupled with fluid turbulent motion, which is ensured by comparisons with experimental observations. The model is also applied to the flow at a planar jet impact onto a still water, as a model of overturning jets of breaking waves, which reasonably computed cavity deformation, air tube entrainment and bubble formations.

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Drag force for high density number of buoyant microbubbles

Oyaizu¹,

Watanabe²

2016

Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal E

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Haruhi Oyaizu

Bubble drag in electrolytically generated microbubble swarms with bubble-vortex interactions

Unstable behaviours of cavities formed by steady planar jets on still water

Splash, Vortices and Turbulent Shears in Partial Dam-Break Flows -- Splash Model of Wave-Breaking and Overtopping --

Bubble-turbulence interactions model in a stochastic-LES framework

Drag force for high density number of buoyant microbubbles

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