Jordan Journal of Civil Engineering

Perturbation Solution of the Jackson’s Dusty Gas Model Equations for Ternary Gaseous Systems


Wa’il Y. Abu-El-Sha’r; Riyadh Al-Raoush; Khaled Asfar;


A perturbation technique was used to obtain an approximate closed-form solution for the mass balance equations when the dusty gas model (DGM) is used to calculate total molar fluxes of components of ternary gaseous systems. This technique employed the straight-forward expansion method to the second-order approximation. Steady-state, isobaric, isothermal and no reaction conditions were assumed. The obtained solution is a set of equations expressed to calculate mole fractions as functions of dimensionless length, boundary conditions, properties of the gases and parameters of transport mechanisms (i.e., Knudsen diffusivity and effective binary diffusivity). Three different systems represent field and experimental conditions were used to test the applicability of perturbation solution. Findings indicate that the obtained solution provides an effective tool to calculate mole fractions and total molar fluxes of components of ternary gaseous systems.


Dusty Gas Model, Perturbation, Gas Transport Mechanisms, Diffusive Transport, Porous Media, VOC, Groundwater Contamination.