Thermal conductivity and density of toluene in the temperature range 273–373 K at pressures up to 250 MPa |
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Authors: | H Kashiwagi T Hashimoto Y Tanaka H Kubota T Makita |
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Affiliation: | (1) Department of Chemical Engineering, Kobe University, 657 Kobe, Japan |
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Abstract: | New experimental data on the thermal conductivity and the density of liquid toluene are presented in the temperature range 0–100°C at pressures up to 250 MPa. The measurements of thermal conductivity were performed with a transient hot-wire apparatus on an absolute basis with an inaccuracy less than 1.0%. The density was measured with a high-pressure burette method with an uncertainty within 0.1%. The experimental results for both properties are represented satisfactorily by the Tait-type equations, as well as empirical polynomials, covering the entire ranges of temperature and pressure. Furthermore, it is found that simple relations exist between the temperature dependence of thermal conductivity and the thermal expansion coefficient, and also between the pressure dependence of thermal conductivity and the isothermal compressibility, as are suggested theoretically. |
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Keywords: | density isothermal compressibility Tait equation thermal conductivity thermal expansion coefficient toluene transient hot-wire method |
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