In this paper a first experimental attempt is performed to measure heat conduction through rarefied air at rest contained between two concentric cylinders. The heat transfer between a heated platinum wire having a diameter (d) of 0.15 mm, disposed along the axis of a cylindrical shell in stainless steel having an inner diameter (D) of 100 mm, and a surrounded rarefied gas has been studied experimentally and numerically. The ratio between the outer and inner diameter of the annular region filled by the gas is large (D/d=667). In the annular region filled with air the pressure was varied by using a vacuum pump from atmospheric value down to 10-3 mbar. Temperature differences between the wire and the external stainless steel wall in the range 50-125 K were imposed and the heat power transferred from the wire to the surround was measured as a function of the gas pressure starting from air at atmospheric conditions down to 10-3 mbar. The experimental results obtained in these tests were compared with the numerical results obtained by using the linear and nonlinear Shakhov kinetic models.

Chalabi H., Buchina O., Saraceno L., Lorenzini M., Valougeorgis D., Morini G.L. (2012). Experimental analysis of heat transfer between a heated wire and a rarefied gas in an annular gap with high diameter ratio. JOURNAL OF PHYSICS. CONFERENCE SERIES, 362, 1-10 [10.1088/1742-6596/362/1/012028].

Experimental analysis of heat transfer between a heated wire and a rarefied gas in an annular gap with high diameter ratio

LORENZINI, MARCO;MORINI, GIAN LUCA
2012

Abstract

In this paper a first experimental attempt is performed to measure heat conduction through rarefied air at rest contained between two concentric cylinders. The heat transfer between a heated platinum wire having a diameter (d) of 0.15 mm, disposed along the axis of a cylindrical shell in stainless steel having an inner diameter (D) of 100 mm, and a surrounded rarefied gas has been studied experimentally and numerically. The ratio between the outer and inner diameter of the annular region filled by the gas is large (D/d=667). In the annular region filled with air the pressure was varied by using a vacuum pump from atmospheric value down to 10-3 mbar. Temperature differences between the wire and the external stainless steel wall in the range 50-125 K were imposed and the heat power transferred from the wire to the surround was measured as a function of the gas pressure starting from air at atmospheric conditions down to 10-3 mbar. The experimental results obtained in these tests were compared with the numerical results obtained by using the linear and nonlinear Shakhov kinetic models.
2012
Chalabi H., Buchina O., Saraceno L., Lorenzini M., Valougeorgis D., Morini G.L. (2012). Experimental analysis of heat transfer between a heated wire and a rarefied gas in an annular gap with high diameter ratio. JOURNAL OF PHYSICS. CONFERENCE SERIES, 362, 1-10 [10.1088/1742-6596/362/1/012028].
Chalabi H.; Buchina O.; Saraceno L.; Lorenzini M.; Valougeorgis D.; Morini G.L.;
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/119504
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