Three-level order-adaptive weighted essentially non-oscillatory schemes

Neelan, A. Arun Govind; Nair, Manoj T.; Buerger, Raimund

Abstract

Classical fifth-order weighted essentially non-oscillatory (WENO) schemes are based on reconstructions from three consecutive second-order polynomials. They give a third-order accurate scheme when two consecutive polynomials are smooth and one is non-smooth. This situation means losing one order of accuracy if compared with a fourth-order scheme. In classical WENO schemes, weighting functions that determine the weights for the polynomials and that eventually define the reconstruction are directly related to a smoothness indicator. This property may lead to a non-zero residual of a very small value in the Taylor expansion. To handle this situation a weighting procedure that does not directly rely on the smoothness indicator is presented. Once the smooth polynomials are determined, the smoothness indicator has no role in the further steps, which are taken care of by a new switch function. Contrary to other approaches this switch function does not involve any conditional statements. A tuning parameter is also included so that the resulting order-adaptive property can be adjusted to specific requirements. The performance of the resulting schemes for cell-average and point value reconstructions is studied. In addition, the effect of the choice of numerical flux or Riemann solver on these reconstruction strategies is analysed. Numerical tests for the Euler equations of gas dynamics in one and two space dimensions are presented. Improvements in resolution and the stability are found when compared with the conventional WENO techniques. (C) 2021 The Author(s). Published by Elsevier B.V.

Más información

Título según WOS: Three-level order-adaptive weighted essentially non-oscillatory schemes
Título de la Revista: RESULTS IN APPLIED MATHEMATICS
Volumen: 12
Editorial: Elsevier
Fecha de publicación: 2021
DOI:

10.1016/j.rinam.2021.100217

Notas: ISI