2019
DOI: 10.29047/01225383.145
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Comparison of an analytical and computational fluid-dynamics models of a commercial Ranque-Hilsch vortex tube operating with Air and Methane

Abstract: This paper presents a comparison between the behavior predicted by a computational fluid-dynamic model (CFD) and an analytical model for a commercial vortex tube using air and methane as working fluids, in addition to a three-dimensional mesh for this purpose. The numerical simulation of the turbulent, compressible and high vorticity flow was carried out using RANS equations, the Realizable k-e turbulence model and STAR-CCM+ as software for the equations solution. The variables measured in this work were tempe… Show more

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Cited by 2 publications
(3 citation statements)
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“…All the relevant variables take lower values than those from nitrogen. As mentioned in the introduction, reference [32] also obtained a lower value of temperature separation when comparing air (mostly nitrogen) and methane. The hot temperature separation is a 30% lower than that obtained without heating, but cold temperature separation is very near to zero, significantly differing from the 4 • C obtained with nitrogen.…”
Section: Cfd Simulationsmentioning
confidence: 79%
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“…All the relevant variables take lower values than those from nitrogen. As mentioned in the introduction, reference [32] also obtained a lower value of temperature separation when comparing air (mostly nitrogen) and methane. The hot temperature separation is a 30% lower than that obtained without heating, but cold temperature separation is very near to zero, significantly differing from the 4 • C obtained with nitrogen.…”
Section: Cfd Simulationsmentioning
confidence: 79%
“…Ref. [34] also performed a 3D CFD simulation of a six nozzle VT, with methane and air as working fluids, arriving at the same conclusion as [32]: methane simulations result in a slightly lower temperature separation for both hot and cold ends.…”
Section: Review Of Simulation Of Vortex Tubesmentioning
confidence: 87%
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