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Finite Volume Element Approximations of Nonlocal in Time One-Dimensional Flows in Porous Media (2000)

Ewing, R. E. ; Lazarov, R. D. ; Lin, Y.

Springer

Computing 64 (2000), S. 157-182

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ISSN: 1436-5057

Keywords: AMS Subject Classifications: 65M12, 65M60, 65N40. ; Key Words: Finite volume method, parabolic equation, integro-differential equation.

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science

Notes: Abstract Various finite volume element schemes for parabolic integro-differential equations in 1-D are derived and studied. These types of equations arise in modeling reactive flows or material with memory effects. Our main goal is to develop a general framework for obtaining finite volume element approximations and to study the error analysis. We consider the lowest-order (linear and L-splines) finite volume elements, although higher-order volume elements can be considered as well under this framework. It is proved that finite volume element approximations are convergent with optimal order in H 1-norms, suboptimal order in the L 2-norm and super-convergent order in a discrete H 1-norm.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s006070050007

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Local refinement techniques for elliptic problems on cell-centered grids (1991)

Ewing, R. E. ; Lazarov, R. D. ; Vassilevski, P. S.

Springer

Numerische Mathematik 59 (1991), S. 431-452

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ISSN: 0945-3245

Keywords: 65F10 ; 65N20 ; 65N30

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics

Notes: Summary Algebraic multilevel analogues of the BEPS preconditioner designed for solving discrete elliptic problems on grids with local refinement are formulated, and bounds on their relative condition numbers, with respect to the composite-grid matrix, are derived. TheV-cycle and, more generally,v-foldV-cycle multilevel BEPS preconditioners are presented and studied. It is proved that for 2-D problems theV-cycle multilevel BEPS is almost optimal, whereas thev-foldV-cycle algebraic multilevel BEPS is optimal under a mild restriction on the composite cell-centered grid. For thev-fold multilevel BEPS, the variational relation between the finite difference matrix and the corresponding matrix on the next-coarser level is not necessarily required. Since they are purely algebraically derived, thev-fold (v〉1) multilevel BEPS preconditioners perform without any restrictionson the shape of subregions, unless the refinement is too fast. For theV-cycle BEPS preconditioner (2-D problem), a variational relation between the matrices on two consecutive grids is required, but there is no restriction on the method of refinement on the shape, or on the size of the subdomains.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01385790

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