@Article{IJNAM-4-3-4, author = {}, title = {Numerical Analysis of a Higher Order Time Relaxation Model of Fluids}, journal = {International Journal of Numerical Analysis and Modeling}, year = {2007}, volume = {4}, number = {3-4}, pages = {648--670}, abstract = {

We study the numerical errors in finite elements discretizations of a time relaxation model of fluid motion:
                          $u_t + u\cdot \nabla u + \nabla p - \nu\Delta u + \chi u^* = f$ and $\nabla \cdot u = 0$
In this model, introduced by Stolz, Adams, and Kleiser, $u^*$ is a generalized fluctuation and $\chi$ the time relaxation parameter. The goal of inclusion of the $\chi u^*$ is to drive unresolved fluctuations to zero exponentially. We study convergence of discretization of model to the model's solution as $h$, $\Delta t \rightarrow 0$. Next we complement this with an experimental study of the effect the time relaxation term (and a nonlinear extension of it) has on the large scales of a flow near a transitional point. We close by showing that the time relaxation term does not alter shock speeds in the inviscid, compressible case, giving analytical confirmation of a result of Stolz, Adams, and Kleiser.

}, issn = {2617-8710}, doi = {https://doi.org/2007-IJNAM-882}, url = {https://global-sci.com/article/83799/numerical-analysis-of-a-higher-order-time-relaxation-model-of-fluids} }