An accurate representation of the thermal conductivity of methane and tetrafluoromethane in the limit of zero density valid for the temperature range 120–1000 K with a highest uncertainty of 4%. Also included is a temperature range of 280–750 K with a highest uncertainty of 5% for methane and tetrafluoromethane respectively. These theoretically based correlations are compared to bodies of data, collected mainly from the transient hot ...
New independent representations of the viscosity and thermal conductivity of ethane in the limit of zero density. For viscosity, the correlation is over the temperature range of 200 to 1000 K, with the highest uncertainty being 2.5% . The correlation for thermal conductivity covers from 225 to 725 K with a highest uncertainty of 3%....
All reliable experimental data available relating to the viscosity and thermal conductance of water has been collected and turned into the current temperature scale and a set of units. There are four groups of data collected; liquid at ambient pressure, the rest of the liquid phase, the vapor phase, and the super-critical region. For each data point collected, a density was calculated theoretically. Viscosity was measured in the range of ...
New representative equations are put forth for the thermal conductance of n-hexane (C6H14) which are based on data that has been critically assessed for agreement with theory. The data was obtained through use of the thermal hot wire technique, among others. For the dilute gas case, a theoretically based correlation was used to extend the temperature range of the experimental data. ...
New representative equations are put forth for the thermal conductance of ethanol (C2H6O) which are based on a body of experimental data that has been critically assessed for agreement with theory where possible. The data was obtained through use of the thermal hot wire technique, among others. For the dilute gas case, a theoretically based correlation was used to extend ...