Experimental Evaluation of the Energy Performance of an Air Vortex Tube when the Inlet Parameters are Varied

Torrella, E.; Patiño, J.; Sánchez, Daniel; Llopis, Rodrigo; Cabello, R.

doi:10.2174/1874155x01307010098

Cited by 7 publications

(3 citation statements)

References 28 publications

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“…In addition, it can observe that temperature drop increases with the increase of inlet pressure. [28][29][30] In addition, it was found that maximum temperature drop is attained in the same range at all considered pressure input. 28,29 There takes place signi¯cant improvement of maximum temperature drop from a pressure 2 to 3 bar.…”

Section: 5mentioning

confidence: 73%

Experimental Investigation on Temperature Separation of Dual Forced Flow Vortex Tube

Yadav¹,

Reddy²,

Gowd

2014

Int. J. Air-Cond. Ref.

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The vortex tube is a device, which emanates hot and cold air streams simultaneously at its two ends from a source of pressurized air: warmer, gas leaves near the periphery at one end as a free vortex and colder, gas leaves via an ori¯ce at the opposite end as a forced vortex. The forced vortex strikes back again by design modi¯cations, result in the formation of one more forced vortex°ow. Thus, the modi¯ed vortex tube is named as dual forced°ow vortex tube (DFFVT). Experimental study is carried on temperature separation of DFFVT for varying pressures, mass°o w rates and optimum cold fractions at two ends for e±cient temperature drop is revealed. The modi¯ed vortex tube yields e®ectual temperature drop through one end at a lower cold fraction meanwhile providing e®ective cooling at the other end with higher cold fraction and vice versa.

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Section: 5mentioning

confidence: 73%

Experimental Investigation on Temperature Separation of Dual Forced Flow Vortex Tube

Yadav¹,

Reddy²,

Gowd

2014

Int. J. Air-Cond. Ref.

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“…According to the results of the study the maximum energy separation was around 4 nozzles. Torrella et al [39] have studied on the energy performance of vortex tube under variations of the air inlet properties such as pressure and temperature with and without insulation conditions. They have concluded that the insulation does not modify appreciably the energy of performance of the vortex tube.…”

Section: Introductionmentioning

confidence: 99%

The experimental investigation and thermodynamic analysis of vortex tubes

Çelik¹,

Yılmaz

Kaya

et al. 2016

Heat Mass Transfer

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“…Through the results they concluded that vortex tube with length to diameter ratio of 20.5 and effective cold mass fraction 0.2 gives the best performance for designed tube from cooling point of view.Yunpeng Xue [34] did thermodynamic analysis on separation of energy inside the vortex tube and stated that Adiabatic expansion is found has the great capability to generate the temperature drop, and hence is considered as a main factor in the temperature separation within a vortex tube.Waraporn Rattanongphisat [35] implemented an thermoelectric module to extract heat from the external surface of hot tube and there by achieved an improvement of cooling efficiency of the vortex tube by 9.6%.S.S.Mohanty [36] carried experimental research to study the performance of vortex tube by varying nozzle number along with cold fraction.Xue [37] has gone through the analytical analysis of separation mechanism inside the vortex tube and finally stated that the isentropic expansion is taking place inside the tube.Mahar Kargaran [38] carried an experimental work on the effect of geometrical length and thermo physical properties on vortex tube performance. They concluded that cold temperature decreases with increase of inlet pressure and found a maximum temperature drop of 8 0 C.E.Torella [39] carried an experimental study on the performance of the vortex tube by varying inlet pressure and also by providing insulation. Also the effect of inlet air temperature was studied.…”

Section: Introductionmentioning

confidence: 99%

Effect of End Control Plugs on the Performance of Vortex Tube With Dual Forced Vortex Flow

Yadav¹,

Reddy²,

Gowd³

2016

Journal of Thermal Engineering

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Vortex tube splits the compressed air into two parts: a free vortex as the peripheral warm stream at the conical valve end and a forced vortex as the inner cold stream through the orifice.In the present work the conical valve at the hot end in existing model is replaced with a hollow conical valve gives a provision for flow through the inner core. A conical valve is introduced at the orifice, directs the forced vortex yet again to hit back develops one more forced vortex flow, which escapes through the central core of the hollow conical valve. Thus the revised vortex tube with three outlets: one hot outlet and two cold outlets, is named as dual forced flow vortex tube (DFFVT). Tests were made to evaluate the effect of end control plugs at both the ends on the performance of the modified vortex tube with various cone angles. Results reveal that 45 0 hollow cone angle with 55 0 solid cone angle is the optimum for effective temperature separation.Also it is identified that moderate cold fraction of 0.34 through the cold end-II with 0.21 cold fraction-I gives optimum temperature drops together at both the cold ends.Also the temperature drop through both the ends-I & II increases with increase of pressure.

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Experimental Evaluation of the Energy Performance of an Air Vortex Tube when the Inlet Parameters are Varied

Cited by 7 publications

References 28 publications

Experimental Investigation on Temperature Separation of Dual Forced Flow Vortex Tube

Experimental Investigation on Temperature Separation of Dual Forced Flow Vortex Tube

The experimental investigation and thermodynamic analysis of vortex tubes

Effect of End Control Plugs on the Performance of Vortex Tube With Dual Forced Vortex Flow

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