
doi: 10.1007/bf00042748
For Courant numbers larger than one and cell Reynolds numbers larger than two, oscillations and in some cases instabilities are typically found with implicit numerical solutions of the fluid dynamics equations. This behavior has sometimes been associated with the loss of diagonal dominance of the coefficient matrix. It is shown here that these problems can in fact be related to the choice of the spatial differences, with the resulting instability related to aliasing or non-linear interaction. Appropriate “filtering” can reduce the intensity of these oscillations and in some cases possibly eliminate the instability. These filtering procedures are equivalent to a weighted average of conservation and non-conservation differencing. The entire spectrum of filtered equations retains a three-point character as well as second-order spatial accuracy. Burgers equation has been considered as a model. Several filters are examined in detail, and smooth solutions have been obtained for extremely large cell Reynolds numbers.
Applications to the sciences, Navier-Stokes equations for incompressible viscous fluids, non-linear instabilities, implicit numerical solutions, extremely large cell Reynolds numbers, fluid dynamics equations, filtered equations, Burgers equation
Applications to the sciences, Navier-Stokes equations for incompressible viscous fluids, non-linear instabilities, implicit numerical solutions, extremely large cell Reynolds numbers, fluid dynamics equations, filtered equations, Burgers equation
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