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Numerical Solution of the 1D Advection-Diffusion Equation Using Standard and Nonstandard Finite Difference Schemes

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  • A. R. Appadu

Abstract

Three numerical methods have been used to solve the one-dimensional advection-diffusion equation with constant coefficients. This partial differential equation is dissipative but not dispersive. We consider the Lax-Wendroff scheme which is explicit, the Crank-Nicolson scheme which is implicit, and a nonstandard finite difference scheme (Mickens 1991). We solve a 1D numerical experiment with specified initial and boundary conditions, for which the exact solution is known using all these three schemes using some different values for the space and time step sizes denoted by and , respectively, for which the Reynolds number is 2 or 4. Some errors are computed, namely, the error rate with respect to the norm, dispersion, and dissipation errors. We have both dissipative and dispersive errors, and this indicates that the methods generate artificial dispersion, though the partial differential considered is not dispersive. It is seen that the Lax-Wendroff and NSFD are quite good methods to approximate the 1D advection-diffusion equation at some values of and . Two optimisation techniques are then implemented to find the optimal values of when for the Lax-Wendroff and NSFD schemes, and this is validated by numerical experiments.

Suggested Citation

  • A. R. Appadu, 2013. "Numerical Solution of the 1D Advection-Diffusion Equation Using Standard and Nonstandard Finite Difference Schemes," Journal of Applied Mathematics, Hindawi, vol. 2013, pages 1-14, March.
  • Handle: RePEc:hin:jnljam:734374
    DOI: 10.1155/2013/734374
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    Cited by:

    1. Umurdin Dalabaev, 2020. "Increasing the Accuracy of the Difference Scheme Using the Richardson Extrapolation Based on the Movable Node Method," Academic Journal of Applied Mathematical Sciences, Academic Research Publishing Group, vol. 6(8), pages 204-212, 10-2020.
    2. Cheng-Yu Ku & Jing-En Xiao & Chih-Yu Liu, 2020. "Space–Time Radial Basis Function–Based Meshless Approach for Solving Convection–Diffusion Equations," Mathematics, MDPI, vol. 8(10), pages 1-23, October.

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