ACTA MATHEMATICA UNIVERSITATIS COMENIANAE
Vol. LXXVI, 1 (2007)
p. 51 - 62
Solution of inverse problems in contaminant transport with adsorption
J. Kacur, M. Remesikova and B. Malengier
Abstract.
In this paper, solution of inverse contaminant transport
problems is studied, including nonlinear sorption in
equilibrium and non-equilibrium mode. A precise numerical
solver for the direct problem is discussed. The method is
based on time stepping and operator splitting with respect
to the nonlinear transport, diffusion and adsorption. The
nonlinear transport problem corresponds to a multiple
Riemann problem and is solved by modified front tracking
method. The diffusion problem is solved by a finite volume
scheme and the sorption part is solved by an implicit
numerical scheme. The solution of the inverse problem is
based on an iterative approach. The gradient of the cost
functional with respect to the determined parameters is
constructed by means of solution of the corresponding
adjoint system. Numerical examples are presented for a 1D
situation and for a dual-well setting with steady-state
flow between injection and extraction wells.
Keywords.
Contaminant transport, inverse problem, nonequilibrium
adsorption, operator splitting.
AMS Subject classification. 76S05, 65M99, 65-06.
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Acta Mathematica Universitatis Comenianae
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