NONSYMMETRIC BRANCHING OF FLUID FLOWS IN 3D VESSELS

Nonsymmetric branching flow through a three-dimensional (3D) vessel is considered at medium-to-high flow rates. The branching is from one mother vessel to two or more daughter vessels downstream, with laminar steady or unsteady conditions assumed. The inherent 3D nonsymmetry is due to the branching...

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Veröffentlicht in:	The ANZIAM journal 2018-04, Vol.59 (4), p.533-561
Hauptverfasser:	OVENDEN, N. C., SMITH, F. T.
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Sprache:	eng
Schlagworte:	Branching shapes Daughters Flow velocity Fluid flow Influence Physiology Reynolds number Shear stress Swirling Three dimensional flow Trends Velocity distribution Vessels
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description	Nonsymmetric branching flow through a three-dimensional (3D) vessel is considered at medium-to-high flow rates. The branching is from one mother vessel to two or more daughter vessels downstream, with laminar steady or unsteady conditions assumed. The inherent 3D nonsymmetry is due to the branching shapes themselves, or the differences in the end pressures in the daughter vessels, or the incident velocity profiles in the mother. Computations based on lattice-Boltzmann methodology are described first. A subsequent analysis focuses on small 3D disturbances and increased Reynolds numbers. This reduces the 3D problem to a two-dimensional one at the outer wall in all pressure-driven cases. As well as having broader implications for feeding into a network of vessels, the findings enable predictions of how much swirling motion in the cross-plane is generated in a daughter vessel downstream of a 3D branch junction, and the significant alterations provoked locally in the shear stresses and pressures at the walls. Nonuniform incident wall-shear and unsteady effects are examined. A universal asymptotic form is found for the flux change into each daughter vessel in a 3D branching of arbitrary cross-section with a thin divider.
doi_str_mv	10.1017/S144618111800010X
format	Article
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subjects	Branching shapes Daughters Flow velocity Fluid flow Influence Physiology Reynolds number Shear stress Swirling Three dimensional flow Trends Velocity distribution Vessels
title	NONSYMMETRIC BRANCHING OF FLUID FLOWS IN 3D VESSELS
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