The effects of orifice nozzle number and nozzle made of polyamide plastic and aluminum with different inlet pressures on heating and cooling performance of counter flow Ranque–Hılsch vortex tubes: An experimental investigation

•The effects of the orifice nozzle number and the inlet pressure on heating and cooling performance of a counter flow Ranque–Hilsch type vortex tube are investigated by using air and oxygen as a fluid via an experimental method.•Five orifices with two, three, four, five and six nozzles are made from...

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Bibliographic Details
Published in:International journal of refrigeration 2016-12, Vol.72, p.140-146
Main Authors: Cebeci, Ismail, Kirmaci, Volkan, Topcuoglu, Umit
Format: Article
Language:English
Subjects:
Aerodynamics
Aluminum
Chauffage
Cooling
Energy separation
Fluid dynamics
Fluid flow
Heating
Inlet pressure
Nozzles
Orifices
Polyamide resins
Ranque–Hilsch vortex tube
Refroidissement
Research methodology
Séparation d'énergie
Temperature gradients
Thermodynamic properties
Tube vortex de Ranque-Hilsch
Tubes
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Summary:•The effects of the orifice nozzle number and the inlet pressure on heating and cooling performance of a counter flow Ranque–Hilsch type vortex tube are investigated by using air and oxygen as a fluid via an experimental method.•Five orifices with two, three, four, five and six nozzles are made from the polyamide plastic and aluminum. The object of this research is to observe thermal behavior of air and oxygen, which are passing through a vortex tube.•The object of this research is to observe thermal behavior of air, oxygen and various orifice passing through vortex tube. In this paper, the effects of the orifice nozzle number and the inlet pressure on heating and cooling performance of a counter flow Ranque–Hilsch type vortex tube (RHVT) (L/D ration is 10) are investigated by using air and oxygen as a fluid via an experimental method. Five orifices with two, three, four, five and six nozzles are made from the polyamide plastic and aluminum. The object of this research is to observe thermal behavior of air and oxygen, which are passing through an RHVT. Using two different fluids for each one of the orifices (nozzle numbers), inlet pressure is varied between 150 kPa and 700 kPa by increasing 50 kPa for each step and comparison is made between these two fluids by holding the cold mass fraction constant at 0.36. We show that the temperature gradient between the cold and hot fluid decreases whenever the orifice nozzle number increases.
ISSN:0140-7007
1879-2081
DOI:10.1016/j.ijrefrig.2016.07.013