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

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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.

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Authors and Affiliations

  1. Institute for Scientific Computation Texas A & M University College Station, TX 77843-3404 USA e-mail: ewing@isc.tamu.edu, , , , , , US

    R. E. Ewing

  2. Department of Mathematics Texas A & M University College Station, TX 77843-336 USA e-mail: lazarov@math.tamu.edu, , , , , , US

    R. D. Lazarov

  3. Department of Mathematics University of Alberta Edmonton, Alberta, T6G 2G1 Canada e-mail: ylin@hilbert.math.ualberta.ca, , , , , , CA

    Y. Lin

Authors
  1. R. E. Ewing
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  2. R. D. Lazarov
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  3. Y. Lin
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Received August 3, 1998; revised October 11, 1999

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Ewing, R., Lazarov, R. & Lin, Y. Finite Volume Element Approximations of Nonlocal in Time One-Dimensional Flows in Porous Media. Computing 64, 157–182 (2000). https://doi.org/10.1007/s006070050007

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  • DOI: https://doi.org/10.1007/s006070050007

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