IHS ESDU Thermal conductivity of liquids: Aromatic hydrocarbons. 84010

Description
ESDU 84010 contains liquid thermal conductivity data for twenty three aromatic hydrocarbons, five biphenyls, nine fused ring aromatics and derivatives, styrene and phenylcyclohexane. Experimental results drawn from the literature for each pure compound were fitted with a four-term polynomial equation in reduced temperature. The coefficients were also faired with changing molecular structure to ensure the best correlation not only for the individual compounds but also for them as members of their chemical series. The coefficient correlations also allowed values to be predicted for those pure compounds for which no measured data exist. The equations were used to tabulate thermal conductivity values at saturation pressure, from the melting temperature where known or an appropriate starting point, to about 0.9 of the critical temperature in SI units at 10 K and 10 degree Celsius intervals. The likely uncertainties in the values presented are indicated in the text. The critical temperature, coefficients and sources of the data are given for each compound. An approximate expression, valid between the normal melting and boiling temperatures is given for the effect of pressure up to 50 MPa.
Description
ESDU 84010 contains liquid thermal conductivity data for twenty three aromatic hydrocarbons, five biphenyls, nine fused ring aromatics and derivatives, styrene and phenylcyclohexane. Experimental results drawn from the literature for each pure compound were fitted with a four-term polynomial equation in reduced temperature. The coefficients were also faired with changing molecular structure to ensure the best correlation not only for the individual compounds but also for them as members of their chemical series. The coefficient correlations also allowed values to be predicted for those pure compounds for which no measured data exist. The equations were used to tabulate thermal conductivity values at saturation pressure, from the melting temperature where known or an appropriate starting point, to about 0.9 of the critical temperature in SI units at 10 K and 10 degree Celsius intervals. The likely uncertainties in the values presented are indicated in the text. The critical temperature, coefficients and sources of the data are given for each compound. An approximate expression, valid between the normal melting and boiling temperatures is given for the effect of pressure up to 50 MPa.

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Thermal conductivity of liquids: Aromatic hydrocarbons. - 84010 - IHS ESDU
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Thermal conductivity of liquids: Aromatic hydrocarbons.
84010
Thermal conductivity of liquids: Aromatic hydrocarbons. 84010
ESDU 84010 contains liquid thermal conductivity data for twenty three aromatic hydrocarbons, five biphenyls, nine fused ring aromatics and derivatives, styrene and phenylcyclohexane. Experimental results drawn from the literature for each pure compound were fitted with a four-term polynomial equation in reduced temperature. The coefficients were also faired with changing molecular structure to ensure the best correlation not only for the individual compounds but also for them as members of their chemical series. The coefficient correlations also allowed values to be predicted for those pure compounds for which no measured data exist. The equations were used to tabulate thermal conductivity values at saturation pressure, from the melting temperature where known or an appropriate starting point, to about 0.9 of the critical temperature in SI units at 10 K and 10 degree Celsius intervals. The likely uncertainties in the values presented are indicated in the text. The critical temperature, coefficients and sources of the data are given for each compound. An approximate expression, valid between the normal melting and boiling temperatures is given for the effect of pressure up to 50 MPa.

ESDU 84010 contains liquid thermal conductivity data for twenty three aromatic hydrocarbons, five biphenyls, nine fused ring aromatics and derivatives, styrene and phenylcyclohexane. Experimental results drawn from the literature for each pure compound were fitted with a four-term polynomial equation in reduced temperature. The coefficients were also faired with changing molecular structure to ensure the best correlation not only for the individual compounds but also for them as members of their chemical series. The coefficient correlations also allowed values to be predicted for those pure compounds for which no measured data exist. The equations were used to tabulate thermal conductivity values at saturation pressure, from the melting temperature where known or an appropriate starting point, to about 0.9 of the critical temperature in SI units at 10 K and 10 degree Celsius intervals. The likely uncertainties in the values presented are indicated in the text. The critical temperature, coefficients and sources of the data are given for each compound. An approximate expression, valid between the normal melting and boiling temperatures is given for the effect of pressure up to 50 MPa.

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Technical Specifications

  IHS ESDU
Product Category Standards and Technical Documents
Product Number 84010
Product Name Thermal conductivity of liquids: Aromatic hydrocarbons.
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