2017
DOI: 10.1007/s00021-016-0313-2
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Generalized Forchheimer Flows of Isentropic Gases

Abstract: We consider generalized Forchheimer flows of either isentropic gases or slightly compressible fluids in porous media. By using Muskat's and Ward's general form of the Forchheimer equations, we describe the fluid dynamics by a doubly nonlinear parabolic equation for the appropriately defined pseudo-pressure. The volumetric flux boundary condition is converted to a time-dependent Robin-type boundary condition for this pseudo-pressure. We study the corresponding initial boundary value problem, and estimate the L … Show more

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Cited by 10 publications
(25 citation statements)
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“…We note that the global L ∞ -norm of u is bounded by (4.38) in Theorem 4.4 which is "quasi-homogeneous" in its L β x,t -norm for some β > 0. This extends previous results in [4,29]. In section 5, we establish L 2−a -estimates for the gradient of u(x, t) in Theorem 5.2.…”
Section: Introductionsupporting
confidence: 79%
See 3 more Smart Citations
“…We note that the global L ∞ -norm of u is bounded by (4.38) in Theorem 4.4 which is "quasi-homogeneous" in its L β x,t -norm for some β > 0. This extends previous results in [4,29]. In section 5, we establish L 2−a -estimates for the gradient of u(x, t) in Theorem 5.2.…”
Section: Introductionsupporting
confidence: 79%
“…Proof. We follow the proof of Proposition 6.2 in [4]. We use Sobolev inequality (2.15) in Lemma 2.3: Applying Hölder's inequality to the first integral on the right-hand side of (4.26) with conjugate exponentsκ α α+δ−a andκ α (κ−1)α+a−δ , we get…”
Section: )mentioning
confidence: 99%
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“…Such a simplification is commonly used in petroleum engineering. The full treatment requires more accurate models for the flows and can use the similar analysis as in [5,6].…”
Section: Modelmentioning
confidence: 99%