RT Journal Article
ID 47d6b30a6b456973
A1 Oberai, Assad A.
A1 Colosqui, Carlos E.
A1 Wanderer, John
T1 Analytical Estimates of the Subgrid Model for Burgers Equation: Ramifications for Spectral Methods for Conservation Laws
JF International Journal for Multiscale Computational Engineering
JO JMC
YR 2008
FD 2008-12-17
VO 6
IS 4
SP 299
OP 307
AB In several numerical methods used for simulating an inviscid, or nearly inviscid, nonlinear conservation law, a wavenumber-dependent viscosity is often employed as a subgrid model. In particular, in the spectral vanishing viscosity and hyperviscosity methods, the viscosity at low wavenumbers is set to zero. In this note, we verify whether this choice is consistent with the wavenumber dependence of the energy transfer to the subgrid scales. We evaluate this transfer for different choices of a desired numerical solution that are made precise by the choice of a restriction operator. We discover that, for the simple model system of Burgers equation, the exact subgrid viscosity is nonzero at low wavenumbers and, hence, the spectral vanishing viscosity and hyperviscosity methods are at odds with the exact subgrid model. We also observe that the exact subgrid viscosity is well described by a nonzero plateau at low wavenumbers, a cusp at the high wavenumbers, and is remarkably similar to the wavenumber-dependent viscosity observed in three-dimensional turbulence. We attribute this similarity to the locality of energy transfer in wavenumber space in both of these systems.
PB Begell House
LK https://www.dl.begellhouse.com/journals/61fd1b191cf7e96f,6a4cc29505086840,47d6b30a6b456973.html