THE INVERSE PROBLEM OF FINDING THE RETARDATION FACTOR a2 AND THE DIFFUSION COEFFICIENT D IN A SUBSTANCE TRANSPORT EQUATION IN A HOMOGENEOUS POROUS MEDIUM
Main Article Content
Abstract
The equations of solute transport in the one-dimensional case are written in the form
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
References
. Barenblatt G.I., Entov V.M. and Ryzhik V.M. Theory of Fluid Flow Through Natural Rocks. Kluwer Academic, Dordrecht, The Netherlands. 1990.
. Van Golf-Racht T.D. Fundamentals of Fractured Reservoir Engineering. Developments in Petroleum Science, Vol. 12. Elsevier. 1982 y. 732 p.
. Sahimi M. Flow and Transport in Porous Media and Fractured Rock. From Classical Methods to Modern Approaches. Second, Revised and Enlarged Edition. WILEY-VCH VerlagGmbH&Co. KGaA. 2011.
. Leij F.L., Bradford S.A. Colloid transport in dual-permeability media // Journal of Contaminant Hydrology. 150.- 2013.-P. 65–76.
. Khuzhayorov B. Kh, Djiyanov T.O. Solute Transport with nonequilibrium adsorption in an inhomogeneous porous medium // Scientific journal «problems of computational and applied mathematics». -2017. -№ 3(9). – P. 63-70.
. Samarskiy A.A. The theory of difference scheme. М. The science. 1977. P. 656.
. Cey E.E., Rudolph D.L. Field study of macropore flow processes using tension infiltration of a dye tracer in partially saturated soils // Hydrological Processes. 23.- 2009.-P. 1768–1779.
. Jarvis N.J. A review of non-equilibrium water flow and solute transport in soil macropores: principles, controlling factors and consequences for water quality // European Journal of Soil Science. 58.- 2007.- P. 523–546.
. Pang L., McLeod M., Aislabie J., Simunek J., Close M., Hector R. Modeling transport of microbes in ten undisturbed soils under effluentirrigation // Vadose Zone Journal 7. -2008.- P. 97–111.
. Passmore J.M., Rudolph D.L., Mesquita M.M.F., Cey E.E., Emelko M.B. The utility of microspheres as surrogates for the transport of E. coli RS2gin partially saturated agricultural soil // Water Research 44.-2010.- P. 1235–1245.
. Gerke H.H., van Genuchten M.T. Macroscopic representation of structural geometry for simulating water and solute movement in dual porosity media // Advances in Water Resources. 19. -1996. -P. 343–357.
. Simunek J., van Genuchten M.Th. Modeling nonequilibrium flow andtransport processes using HYDRUS //Vadose Zone Journal 7.- 2008. -P. 782–797.
. Van Genuchten M.Th., Wierenga P.J. Mass Transfer Studies in Sorbing Porous media.I. Analytical Solution // Soil Science Society of America Journal, 1976.-Vol.40, N.4.- P.473−480.
. Bradford S.A., Simunek J., Bettahar M., van Genuchten M.T., Yates S.R. Modeling colloid attachment, straining, and exclusion in saturated porous media // Environmental Science & Technology. 37.-2003.- P. 2242–2250.
. Bradford S.A., Torkzaban S. Colloid transport and retention inunsaturated porous media: A review of interface-, collector-, and pore-scale processes and models //Vadose Zone Journal. 7.- 2008.- P. 667–681.
. Elimelech M. et al. Particle Deposition and Aggregation: Measurement, Modelling, and Simulation. Butterworth-Heinemann.- Oxford, England,1995.
. Gitis V., Rubinstein I., Livshits M.,Ziskind M. Deep-bed filtration model with multistage deposition kinetics // Chemical Engineering Journal. 163.- 2010.- P. 78-85.