We consider a one-dimensional incompressible flow through a porous medim undergoing deformations such that the porosity and the hydraulic conductivity can be considered as functions of the flux intensity. We prove that if one approximates the porosity with a constant then the solution of the hyperbolic problem converges to the classical continuous Green–Ampt solution, also in the presence of shocks. In general, however, the shocks remain present in any approximating solution.
Shock propagation in a flow through deformable porous media: asymptotic behaviour as the porosity approximates a constant / E. COMPARINI; M.UGHI. - In: MATHEMATICAL MODELS AND METHODS IN APPLIED SCIENCES. - ISSN 0218-2025. - STAMPA. - 17 (8):(2007), pp. 1261-1278. [10.1142/S0218202507002273]
Shock propagation in a flow through deformable porous media: asymptotic behaviour as the porosity approximates a constant
COMPARINI, ELENA;
2007
Abstract
We consider a one-dimensional incompressible flow through a porous medim undergoing deformations such that the porosity and the hydraulic conductivity can be considered as functions of the flux intensity. We prove that if one approximates the porosity with a constant then the solution of the hyperbolic problem converges to the classical continuous Green–Ampt solution, also in the presence of shocks. In general, however, the shocks remain present in any approximating solution.
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