Contents - Index
n-UNDECANE provides high accuracy thermodynamic properties for n-undecane (Molar mass = 156.31 g/mole) using the Fundamental Equation of State presented in
Aleksandrov, I. S.; Gerasimov, A. A.; Grigor'ev, B. A., 2011,
Using Fundamental Equations of State for Calculating the Thermodynamic Properties of Normal Undecane,
Thermal Engineering, 58:691-698.
Note that there is an error in Eqn 7 of this paper. The exponents for tau on the first three terms should be 1.5, 0.25, and 1.25, respectively. (Thanks to Eric Lemmon at NIST and Ian Bell (firstname.lastname@example.org) for help in identifying this error.)
h = 0 kJ/kg, s = 0 kJ/kg-K at 0 K for the equilibrium molecular crystal
The reference state can be changed using the $Reference directive.
Range of applicability for equation of state:
247.6K < T < 650 K
density/critical density >= 2
Transport properties are provided using correlations given in:
Yaws, Carl L., ed. Chemical Properties Handbook. New York: McGraw-Hill, 1999.
Fluid Property Information