Nitin Joshi scite author profile

[1] In this study a conceptual model that accounts for the effects of nonequilibrium contaminant transport in a fractured porous media is developed. Present model accounts for both physical and sorption nonequilibrium. Analytical solution was developed using the Laplace transform technique, which was then numerically inverted to obtain solute concentration in the fracture matrix system. The semianalytical solution developed here can incorporate both semi-infinite and finite fracture matrix extent. In addition, the model can account for flexible boundary conditions and nonzero initial condition in the fracture matrix system. The present semianalytical solution was validated against the existing analytical solutions for the fracture matrix system. In order to differentiate between various sorption/ transport mechanism different cases of sorption and mass transfer were analyzed by comparing the breakthrough curves and temporal moments. It was found that significant differences in the signature of sorption and mass transfer exists. Applicability of the developed model was evaluated by simulating the published experimental data of Calcium and Strontium transport in a single fracture. The present model simulated the experimental data reasonably well in comparison to the model based on equilibrium sorption assumption in fracture matrix system, and multi rate mass transfer model.

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Rainfall Runoff Analysis using Artificial Neural Network

Chakravarti

Joshi

Panjiar

2015

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Application of temporal moments to interpret solute transport with time-dependent dispersion

et al. 2020

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Breakthrough Curves and Simulation of Virus Transport through Fractured Porous Media

et al. 2011

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Nitin Joshi

A nonequilibrium model for reactive contaminant transport through fractured porous media: Model development and semianalytical solution

Rainfall Runoff Analysis using Artificial Neural Network

Application of temporal moments to interpret solute transport with time-dependent dispersion

Breakthrough Curves and Simulation of Virus Transport through Fractured Porous Media

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