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Limits of temperature separation in a vortex tube

1994; Institute of Physics; Volume: 27; Issue: 3 Linguagem: Inglês

10.1088/0022-3727/27/3/009

1361-6463

B. Ahlborn, Jonas Keller, R. Staudt, Gerhard Treitz, Eckhard Rebhan,

Ranque-Hilsch vortex tube

The heating and cooling in a vortex tube is attributed to conversion of kinetic energy into heat and to the reverse process. A two-component model yields the upper limit for the temperature increase on the hot side: (Th-To)/T0 or=T0(1-X)( gamma -1/ gamma ), where gamma =1.4 for air, and X=(p0-pc)/p0 is the normalized pressure drop between the inlet (p0) and the cold exhaust port (Pc) Extensive experimental data for a vortex tube of 18 mm inner diameter with working fluid air all fall between these limits. The model predicts that the inlet velocity reaches the speed of sound for X=0.7. No values X>0.7 could be obtained in these experiments, indicating that the flow always remain subsonic.