It has been a long time since dispersion and specific interactions in nonelectrolytic liquid mixtures involving both non-hydrogen bonding and hydrogen bonding solvent types have been studied by applying many and very different experimental techniques, such as thermomechanic (density, viscosity, dielectric, and refractive properties are the most common) and thermodynamic (heat of mixing) measurements, in addition to spectroscopic techniques, IR and NMR in particular[1]. A literature survey reveals many of transport properties of fluid, a primary source of fundamental data for the solution of practical problems about heat and mass transfer in real systems, for processes development, and engineering design. Furthermore, in recent years the employment of computer simulation methods of molecular dynamics has properties in dense fluids and a greater understanding of molecular motions and interactions' patterns in such systems [2] and [3].
Kinematic viscosity and viscous flow in binary mixtures containing ethane-1,2-diol / Tassi, Lorenzo. - STAMPA. - Supplemento vol. V, capitolo 5:(1996), pp. 79-104.
Kinematic viscosity and viscous flow in binary mixtures containing ethane-1,2-diol
TASSI, Lorenzo
1996
Abstract
It has been a long time since dispersion and specific interactions in nonelectrolytic liquid mixtures involving both non-hydrogen bonding and hydrogen bonding solvent types have been studied by applying many and very different experimental techniques, such as thermomechanic (density, viscosity, dielectric, and refractive properties are the most common) and thermodynamic (heat of mixing) measurements, in addition to spectroscopic techniques, IR and NMR in particular[1]. A literature survey reveals many of transport properties of fluid, a primary source of fundamental data for the solution of practical problems about heat and mass transfer in real systems, for processes development, and engineering design. Furthermore, in recent years the employment of computer simulation methods of molecular dynamics has properties in dense fluids and a greater understanding of molecular motions and interactions' patterns in such systems [2] and [3].Pubblicazioni consigliate
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