Add to ORKGMixing rules are derived for mass diffusion coefficient and thermal diffusion factor matrices by developing compatibility conditions between the fluid mixture equations obtained from nonequilibrium thermodynamics and Grad’s 13-moment kinetic theory. The mixing rules are shown to be in terms of the species mole fractions and binary processes. In particular, the thermal diffusion factors for binary mixtures obtained by the Chapman–Enskog expansion procedure are suitably generalized for many-component mixtures. Some practical aspects of the results are discussed including the utilization of these mixing rules for high pressure situations
In oil and gas reservoirs, the thermal diffusion effect leads to compositional variations of hydroca...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
To better understand diffusion phenomena in highly nonideal ternary liquid mixtures, cyclohexane–tol...
A phenomenological theory is developed for multicomponent diffusion, including thermal diffusion, in...
The reliable evaluation of thermal diffusion factors is important to understand the composition vari...
The correct treatment of diffusion in multicomponent gas mixtures requires solution of a linear syst...
Many operations of interest to chemical engineers require proper modeling of diffusion in fluid mixt...
Many operations of interest to chemical engineers require proper modeling of diffusion in fluid mixt...
Abstract: The method of thermodynamics of irreversible processes with use of a principle o...
Fickian diffusion is the passive movement of molecules due to composition gradient in a mixture, and...
We present the results of a molecular simulation study of fluid mixtures, where complex diffusion be...
Abstract: Methods of thermodynamics of irreversible processes, using the principle of reci...
This work details the development of a new, reduced thermal diffusion model. The proposed model deri...
The need for further studies on the Thermal Diffusion effects relative to the separation of Common G...
International audienceThe thermodynamic formulation and the traditional formulation of multicomponen...
In oil and gas reservoirs, the thermal diffusion effect leads to compositional variations of hydroca...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
To better understand diffusion phenomena in highly nonideal ternary liquid mixtures, cyclohexane–tol...
A phenomenological theory is developed for multicomponent diffusion, including thermal diffusion, in...
The reliable evaluation of thermal diffusion factors is important to understand the composition vari...
The correct treatment of diffusion in multicomponent gas mixtures requires solution of a linear syst...
Many operations of interest to chemical engineers require proper modeling of diffusion in fluid mixt...
Many operations of interest to chemical engineers require proper modeling of diffusion in fluid mixt...
Abstract: The method of thermodynamics of irreversible processes with use of a principle o...
Fickian diffusion is the passive movement of molecules due to composition gradient in a mixture, and...
We present the results of a molecular simulation study of fluid mixtures, where complex diffusion be...
Abstract: Methods of thermodynamics of irreversible processes, using the principle of reci...
This work details the development of a new, reduced thermal diffusion model. The proposed model deri...
The need for further studies on the Thermal Diffusion effects relative to the separation of Common G...
International audienceThe thermodynamic formulation and the traditional formulation of multicomponen...
In oil and gas reservoirs, the thermal diffusion effect leads to compositional variations of hydroca...
The thermodynamic regime of a complex mixture depends on the composition, the pressure and the tempe...
To better understand diffusion phenomena in highly nonideal ternary liquid mixtures, cyclohexane–tol...