Comparison of Epoxy and PTFE Teflon Vortex Tube Process Parameters Using Taguchi Technique
Journal: International Journal of Engineering Sciences & Research Technology (IJESRT) (Vol.3, No. 11)Publication Date: 2014-11-30
Authors : Kakarla Venkateswarlu;
Page : 220-226
Keywords : ds: Vortex tube; geometrical parameters; passage diameter; tube length; Taguchi method.;
Abstract
Vortex tube could be a machine that separates propellant into hot and cold streams. once high pressure air enters into the vortex chamber through one or a lot of tangential nozzles, a sturdy vortex flow created that splits into 2 regions. The high temperature air close to the boundary of the tube leaves circumferentially through the round shape valve wherever as the air at lower temperature leaves through the cold portal. A conical valve is adjusted with the hand control knob allows for adjusting the degree and temperature of air popping out from the cold end. there's no maintenance, no mess, no explosion hazard, no electricity, and no moving components in exploitation the vortex tube. Vortex tubes behave in avery certain and manageable manner. the sole disadvantage with the vortex tube is its low constant of performance (COP). The Vortex tube used for experimental work is factory-made exploitation stuff Poly characid Fluoro alkene (PTFE TEFLON RODS) AND EPOXY POLYSTER RODS. AN Experimental work has been administrated to investigate the performance of vortex tube that influences the impact of 5 manageable input variables specifically diameter of the orifices, diameter of the nozzles, length of hot tube, tube diameter and recess pressure over the temperature distinction within the cold facet as output exploitation Taguchi technique. Experiments were conducted at completely different input pressures of air, viz., at 2, four and half-dozen bars and for various diameters of orifices, viz., 5 mm ,6.5mm and 8 mm. The supply for compressed gas input to the vortex tube was reciprocal compressor. the varied Parameters like main impact analysis, analysis of variance (ANOVA) and optimum Cold Temperature were carried out in order to confirm the effects of method parameters and optimum issue settings. Finally, the confirmation check is distributed to verify the accuracy of Taguchi technique.
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Last modified: 2014-12-05 21:55:56