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Exergetic optimization of vortex tubes using a thermodynamic model.

Number: 2165

Author(s) : LAGRANDEUR J., CROQUER S., PONCET S., SORIN M.

Summary

This article identifies sources of exergy losses in a vortex tube working with air by using a recently developed thermodynamic model and a reference experiment from the literature. Exergetic efficiency considering transiting exergy is used as the efficiency metrics in this work. When both the cold and hot outlets are useful, the exergetic efficiency reaches its maximum value for a cold mass fraction equal to 0.7. Interestingly, up to 45% of the inlet exergy is lost downstream of the vortex tube under this condition because of pressure losses in the cold tube and through measuring instruments. These losses do not contribute to the energy separation mechanism. Inside the vortex tube, the exergy irreversibly is mainly caused by the dissipation of kinetic exergy.
The thermodynamic model is also used to identify the working conditions, which maximize the vortex tube efficiency. The efficiency is always at its maximum value when the inlet Mach number is equal to one. The optimum value of the cold outlet diameter, the mass fraction and the cold outlet axial Mach number changes depending on whether thermal exergy from both outlets can be used or not. Increasing the cold outlet pressure increases the exergetic efficiency as well as changing the optimal condition for all variables except the inlet Mach number. At the end, the optimal vortex tube is twice as efficient as the reference vortex tube.
Finally, the model is employed to identify the best vortex tubes’ arrangement to maximize the exergetic efficiency for an open cycle with a fixed inlet pressure of six bar. This analysis demonstrates that the best arrangement is a cascade of vortex tubes, where a vortex tube unit with the maximum efficiency is placed first. Two other vortex tubes are two other vortex tubes are placed to recover waste pressure on the cold and hot streams from the first unit.

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Pages: 9

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Details

  • Original title: Exergetic optimization of vortex tubes using a thermodynamic model.
  • Record ID : 30028423
  • Languages: English
  • Subject: Technology
  • Source: 2021 Purdue Conferences. 18th International Refrigeration and Air-Conditioning Conference at Purdue.
  • Publication date: 2021/05
  • Document available for consultation in the library of the IIR headquarters only.

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