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      Doubly nonlinear parabolic equations for a general class of Forchheimer gas flows in porous media

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          Abstract

          This paper is focused on the generalized Forchheimer flows of compressible fluids in porous media. The gravity effect and other general nonlinear forms of the source terms and boundary fluxes are integrated into the model. It covers isentropic gas flows, ideal gases and slightly compressible fluids. We derive a doubly nonlinear parabolic equation for the so-called pseudo-pressure, and study the corresponding initial boundary value problem. The maximum estimates of the solution are established by using suitable trace theorem and adapting appropriately the Moser's iteration. The gradient estimates are obtained under a theoretical condition which, indeed, is relevant to the fluid flows in applications.

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          On a Nonlinear Parabolic Problem Arising in Some Models Related to Turbulent Flows

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            Structural stability of generalized Forchheimer equations for compressible fluids in porous media

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              On the local behaviour of solutions of a certain class of doubly nonlinear parabolic equations

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                Author and article information

                Journal
                2016-01-04
                Article
                1601.00703
                13c4c0bb-aae6-4ee8-923a-593226f8da50

                http://creativecommons.org/licenses/by-nc-sa/4.0/

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