Study of Solute Dispersion with Source/Sink Impact in Semi-Infinite Porous Medium

Authors

  • A. Chatterjee Department of Mathematics, The Neotia University, Diamond Harbour, West Bengal, India.
  • M. K. Singh Department of Mathematics and Computing, Indian Institute of Technology (Indian School of Mines), Dhanbad-826004, Jharkhand, India
  • R. Kumar Department of Mathematics and Computing, Indian Institute of Technology (Indian School of Mines), Dhanbad-826004, Jharkhand, India,
  • V. P. Singh Department of Biological and Agricultural Engineering & Zachry Department Civil Engineering, Texas A and M University, 321 Scoates Hall, 2117 TAMU, College Station Texas 77843-2117 USA.
Abstract:

Mathematical models for pollutant transport in semi-infinite aquifers are based on the advection-dispersion equation (ADE) and its variants. This study employs the ADE incorporating time-dependent dispersion and velocity and space-time dependent source and sink, expressed by one function. The dispersion theory allows mechanical dispersion to be directly proportional to seepage velocity. Initially the aquifer is assumed contaminant free and an additional source term is considered at the inlet boundary. A flux type boundary condition is considered in the semi-infinite part of the domain. Laplace transform technique (LTT) is then applied to obtain a closed form analytical solution. The effect of source/sink term as a function in the one-dimensional advection-dispersion equation is explained through the graphical representation for the set of input data based on similar data available in hydrological literature. Matlab software is used to obtain the graphical representation of the obtained solution. The obtained analytical solution of the proposed model may be helpful in the groundwater hydrology areas.

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Journal title

volume 6  issue 1

pages  87- 98

publication date 2020-01-01

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