This paper is concerned with the issue of obtaining explicit fluctuation splitting schemes which achieve second-order accuracy in both space and time on an arbitrary unstructured triangular mesh. A theoretical analysis demonstrates that, for a linear reconstruction of the solution, mass lumping does not diminish the accuracy of the scheme provided that a Galerkin space discretization is employed. Thus, two explicit fluctuation splitting schemes are devised which are second-order accurate in both space and time, namely, the well known Lax-Wendroff scheme and a Lax-Wendroff-type scheme using a three-point-backward discretization of the time derivative. A thorough mesh-refinement study verifies the theoretical order of accuracy of the two schemes on meshes with increasing levels of nonuniformity
Second-order-accurate explicit fluctuation splitting schemes for unsteady problems / Rossiello, G.; DE PALMA, Pietro; Pascazio, Giuseppe; Napolitano, Michele. - In: COMPUTERS & FLUIDS. - ISSN 0045-7930. - 38:7(2009), pp. 1384-1393. [10.1016/j.compfluid.2008.01.021]
Second-order-accurate explicit fluctuation splitting schemes for unsteady problems
DE PALMA, Pietro;PASCAZIO, Giuseppe;NAPOLITANO, Michele
2009-01-01
Abstract
This paper is concerned with the issue of obtaining explicit fluctuation splitting schemes which achieve second-order accuracy in both space and time on an arbitrary unstructured triangular mesh. A theoretical analysis demonstrates that, for a linear reconstruction of the solution, mass lumping does not diminish the accuracy of the scheme provided that a Galerkin space discretization is employed. Thus, two explicit fluctuation splitting schemes are devised which are second-order accurate in both space and time, namely, the well known Lax-Wendroff scheme and a Lax-Wendroff-type scheme using a three-point-backward discretization of the time derivative. A thorough mesh-refinement study verifies the theoretical order of accuracy of the two schemes on meshes with increasing levels of nonuniformityI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
