1980
DOI: 10.1017/s0022112080000031
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Observations and LDA measurements of confined turbulent vortex flow

Abstract: A series of LDA measurements and visual observations of confined turbulent vortex flow are described. The experiments were performed with water as the fluid medium in a vortex tube of length-to-diameter ratio L/D = 3.8 for a range of exit diameters De between De/D = 1 and 0.18. The experiments reveal a remarkable change in the vortex structure as De is reduced: from a thick core with an axial-velocity defect in the centre, and even reversed flow, to a thin annular jet-like core with a peak axial velocity more … Show more

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Cited by 114 publications
(80 citation statements)
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“…In this figure, a coordinate system, and the nomenclature with respect to the geometrical dimensions (D, D e , L, L e , and t) have been defined. In [11], the definition of the Reynolds number was based on the conditions at the inlet: Re = U in t/m, with U in the (superficial) inlet velocity (U in = Q/Lt, with Q the volumetric flow rate), and m the fluidÕs kinematic viscosity. It should be noted that this Reynolds number definition is somewhat a-typical for the flow system under consideration, since the inlet conditions are not representative for the flow in the swirl tube and exit pipe.…”
Section: Flow Systemmentioning
confidence: 99%
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“…In this figure, a coordinate system, and the nomenclature with respect to the geometrical dimensions (D, D e , L, L e , and t) have been defined. In [11], the definition of the Reynolds number was based on the conditions at the inlet: Re = U in t/m, with U in the (superficial) inlet velocity (U in = Q/Lt, with Q the volumetric flow rate), and m the fluidÕs kinematic viscosity. It should be noted that this Reynolds number definition is somewhat a-typical for the flow system under consideration, since the inlet conditions are not representative for the flow in the swirl tube and exit pipe.…”
Section: Flow Systemmentioning
confidence: 99%
“…For instance, the Reynolds number based on the exit pipe diameter, and bulk velocity in the exit pipe is 5-25 times (dependent on D e ) higher than the inlet Reynolds number. However, in order to conform with the definitions in [11], we will use the inlet Reynolds number in the remainder of this article to characterize the flow. In [11], also a geometrical swirl parameter was defined: X = pDD e /Lt.…”
Section: Flow Systemmentioning
confidence: 99%
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