English

Physically-Constrained Data-Driven, Filtered Reduced Order Modeling of Fluid Flows

Numerical Analysis 2018-12-26 v1

Abstract

In our earlier work, we proposed a data-driven filtered reduced order model (DDF-ROM) framework for the numerical simulation of fluid flows, which can be formally written as \begin{equation*} \boxed{ \text{ DDF-ROM = Galerkin-ROM + Correction } } \end{equation*} The new DDF-ROM was constructed by using ROM spatial filtering and data-driven ROM closure modeling (for the Correction term) and was successfully tested in the numerical simulation of a 2D channel flow past a circular cylinder at Reynolds numbers Re=100,Re=500Re=100, Re=500 and Re=1000Re=1000. In this paper, we propose a {\it physically-constrained} DDF-ROM (CDDF-ROM), which aims at improving the physical accuracy of the DDF-ROM. The new physical constraints require that the CDDF-ROM operators satisfy the same type of physical laws (i.e., the nonlinear operator should conserve energy and the ROM closure term should be dissipative) as those satisfied by the fluid flow equations. To implement these physical constraints, in the data-driven modeling step of the DDF-ROM, we replace the unconstrained least squares problem with a constrained least squares problem. We perform a numerical investigation of the new CDDF-ROM and standard DDF-ROM for a 2D channel flow past a circular cylinder at Reynolds numbers Re=100,Re=500Re=100, Re=500 and Re=1000Re=1000. To this end, we consider a reproductive regime as well as a predictive (i.e., cross-validation) regime in which we use as little as 50%50\% of the original training data. The numerical investigation clearly shows that the new CDDF-ROM is significantly more accurate than the DDF-ROM in both regimes.

Keywords

Cite

@article{arxiv.1806.00350,
  title  = {Physically-Constrained Data-Driven, Filtered Reduced Order Modeling of Fluid Flows},
  author = {M. Mohebujjaman and L. G. Rebholz and T. Iliescu},
  journal= {arXiv preprint arXiv:1806.00350},
  year   = {2018}
}

Comments

arXiv admin note: text overlap with arXiv:1709.04362

R2 v1 2026-06-23T02:16:08.645Z