Numerical simulation and experimental study on a microscale vortex tube
Subject Areas : Fluid Mechanic
نادر
رهبر
1
(عضو هیات علمی/ دانشگاه آزاد سمنان)
Mostafa
Shateri
2
(دانشجو)
Mohsan
Taherian
3
(دانشجو)
محمد صادق
ولی پور
4
(عضو هیات علمی دانشگاه سمنان)
Keywords: Numerical simulation, Microscale vortex tube, Energy Separation, SST-Kw,
Abstract :
In This paper the energy separation phenomenon in a micro-scale vortex tube was investigated by using the computational fluid dynamic. The flow is assumed as steady, turbulent, compressible ideal gas, and the shear-stress transport is used for modeling of turbulence phenomenon. The results show that 3-D CFD simulation is more accurate than 2-D axisymmetric one. Moreover, optimum cold-mass ratios to maximize the refrigeration-power and isentropic-efficiency are evaluated. The results of static temperature, velocity magnitude and pressure distributions show that the temperature-separation in the micro-scale vortex tube is a function of kinetic-energy variation and air-expansion in the radial direction.