The thermal conductivity and heat capacity of gaseous argon |
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Authors: | H M Roder R A Perkins C A Nieto de Castro |
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Affiliation: | (1) Thermophysics Division, National Institute of Standards and Technology (formerly National Bureau of Standards), 80303 Boulder, Colorado, USA;(2) Departamento de Quimica, Faculdade de Ciencias, Universidade de Lisboa, 1700 Lisboa, Portugal;(3) Centro de Quimica Estrutural, Complexe I, IST, 1096 Lisboa Codex, Portugal |
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Abstract: | This paper presents new absolute measurements of the thermal conductivity and of the thermal diffusivity of gaseous argon obtained with a transient hot-wire instrument. We measured seven isotherms in the supercritical dense gas at temperatures between 157 and 324 K with pressures up to 70 MPa and densities up to 32 mol · L–1 and five isotherms in the vapor at temperatures between 103 and 142 K with pressures up to the saturation vapor pressure. The instrument is capable of measuring the thermal conductivity with an accuracy better than 1% and thermal diffusivity with an accuracy better than 5%. Heat capacity results were determined from the simultaneously measured values of thermal conductivity and thermal diffusivity and from the density calculated from measured values of pressure and temperature from an equation of state. The heat capacities presented in this paper, with a nominal accuracy of 5%, prove that heat capacity data can be obtained successfully with the transient hot wire technique over a wide range of fluid states. The technique will be invaluable when applied to fluids which lack specific heat data or an adequate equation of state. |
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Keywords: | argon dense gas heat capacity thermal conductivity thermal diffusivity transient hot-wire technique vapor |
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