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Keywords
(12)
Density Dependence
Diffusion Coefficient
Discrete Maximum Principle
Finite Element
Finite Element Approximation
Nonlinear Model
Numerical Computation
Three Dimensional
time discretization
Weak Solution
First Order
navier stokes
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Stability and convergence for a complete model of mass diffusion
Stability and convergence for a complete model of mass diffusion,10.1016/j.apnum.2011.06.017,Applied Numerical Mathematics,R. C. Cabrales,F. Guillén-G
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Stability and convergence for a complete model of mass diffusion
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Citations: 1
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R. C. Cabrales
,
F. Guillén-González
,
J. V. Gutiérrez-Santacreu
We propose a fully discrete scheme for approximating a three-dimensional, strongly
nonlinear model
of mass diffusion, also called the complete Kazhikhov–Smagulov model. The scheme uses a C0 finite-element approximation for all unknowns (density, velocity and pressure), even though the density limit, solution of the continuous problem, belongs to H2. A first-order
time discretization
is used such that, at each time step, one only needs to solve two decoupled linear problems for the discrete density and the velocity–pressure, separately.We extend to the complete model, some stability and convergence results already obtained by the last two authors for a simplified model where λ2-terms are not considered, λ being the mass diffusion coefficient. Now, different arguments must be introduced, based mainly on an induction process with respect to the time step, obtaining at the same time the three main properties of the scheme: an approximate
discrete maximum principle
for the density, weak estimates for the velocity and strong ones for the density. Furthermore, the convergence towards a
weak solution
of the density-dependent Navier–Stokes problem is also obtained as λ→0 (jointly with the space and time parameters).Finally, some numerical computations prove the practical usefulness of the scheme.
Journal:
Applied Numerical Mathematics - APPL NUMER MATH
, vol. 61, no. 11, pp. 1161-1185, 2011
DOI:
10.1016/j.apnum.2011.06.017
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Citation Context
(1)
...An extension of the results in [10] for the complete model with λ 2 -terms has been recently obtained in [
11
]...
Francisco Guillén-González
,
et al.
Error estimates of a linear decoupled Euler–FEM scheme for a mass diff...
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Citations
(1)
Error estimates of a linear decoupled Euler–FEM scheme for a mass diffusion model
(
Citations: 1
)
Francisco Guillén-González
,
Juan Vicente Gutiérrez-Santacreu
Journal:
Numerische Mathematik - NUMER MATH
, vol. 117, no. 2, pp. 333-371, 2011