Liquid viscosities of benzene, n-tetradecane, and benzene plus n-tetradecane from 313 to 393 K and pressures up to 60 MPa: Experiment and modeling

摘要

In this work, kinematic viscosities of benzene, n-tetradecane, and of the mixture benzene + n-tetradecane at four different compositions were measured using a rolling-ball viscometer from 313.2 to 393.2 K and pressures up to 60 MPa. Kinematic viscosities were converted to dynamic viscosities through the use of a density Tait-like equation for pure components and a single density mixing rule for the mixtures. A comparison between our measured viscosities and those reported by other authors for benzene and n-tetradecane was established with the correlation given by Assael et al. [M.J. Assael, J.H. Dymond, M. Papadaki, P.M. Patterson, Correlation and prediction of dense fluid transport coefficients. I. n-alkanes, Int. J. Thermophys. 13 (1992) 269-281]. The comparison showed an average absolute deviation of 1.5% for benzene and 2.7% for n-tetradecane. The measured mixture viscosity data were modeled with a proposed liquid viscosity model based on the Eyring's theory coupled with a cubic equation of state and using a single temperature-independent binary interaction parameter to describe the whole eta - T- p - x surface of study. Results of the modeling effort yielded an average absolute deviation of 2.0%, which is within the experimental uncertainty. (c) 2007 Elsevier B.V. All rights reserved.