The paper reports further developments of the transient hot-wire technique. The particular development of interest is the extension of the technique to study polar, or electrically-conducting gases with a relatively low thermal conductivity but a high thermal diffusivity, circumstances which occur at low density and therefore low pressure, for gases of high molecular weight. The theory of the transient hot-wire instrument is examined again in order to guide a revised design of the thermal conductivity cell with this particular application in mind. Test measurements have then been conducted on helium, argon, and propane at low and moderate pressures to confirm that the instrument operates in accordance with the theory of it. The satisfactory completion of these tests demonstrates that the new equipment overcomes many of the defects observed in earlier variants of the instrument for application to the study of refrigerant gases.
[1]
William A. Wakeham,et al.
Absolute determination of the thermal conductivity of the noble gases at room temperature up to 35 MPa
,
1980
.
[2]
William A. Wakeham,et al.
Measurement of the Transport Properties of Fluids
,
1991
.
[3]
W. Wakeham,et al.
The measurement of the thermal conductivity of gases at low density by the transient hot-wire technique
,
1993
.
[4]
J. Kestin,et al.
Equilibrium and transport properties of the noble gases and their mixtures at low density
,
1984
.
[5]
W. Wakeham,et al.
The thermal conductivity of argon, carbon dioxide and nitrous oxide
,
1987
.
[6]
J. C. Jaeger,et al.
Conduction of Heat in Solids
,
1952
.