In this paper we present a collection of techniques used to formulate a projection-based reduced order model (ROM) for zero Mach limit thermally coupled Navier–Stokes equations. The formulation derives from a standard proper orthogonal decomposition (POD) model reduction, and includes modifications to improve the drawbacks caused by the inherent non-linearity of the used Navier–Stokes equations: a hyper-ROM technique based on mesh coarsening; an implicit ROM subscales formulation based on a variational multi-scale (VMS) framework; and a Petrov–Galerkin projection necessary in the case of non-symmetric terms. At the end of the article, we test the proposed ROM formulation using 2D and 3D versions of the same example: a differentially heated ...
A novel reduced order model (ROM) for incompressible flows is developed by performing a Galerkin pro...
This work gives an overview of Reduced Order Model (ROM) applications employed within the context of...
A novel reduced order model (ROM) for incompressible flows is developed by performing a Galerkin pro...
In this paper we present a collection of techniques used to formulate a projection-based reduced ord...
This thesis presents the a stabilized projection-based Reduced Order Model (ROM) formulation in low ...
The trade-off between solution accuracy and computational burden is fundamental in numerical simulat...
In this contribution we explore some numerical alternatives to derive efficient and robust low-order...
This report describes work performed from October 2007 through September 2009 under the Sandia Labor...
The development of a new generation of reactor presents several modelling challenges that cannot be ...
This article presents two new non-intrusive reduced order models based upon proper orthogonal decomp...
For over a century, reduced order models (ROMs) have been a fundamental discipline of theoretical fl...
This study focuses on stabilizing Reduced Order Model based on Proper Orthogonal Decomposition (POD)...
A novel reduced-order model (ROM) formulation for incompressible flows is presented with the key pro...
A novel reduced order model (ROM) for incompressible flows is developed by performing a Galerkin pro...
This work gives an overview of Reduced Order Model (ROM) applications employed within the context of...
A novel reduced order model (ROM) for incompressible flows is developed by performing a Galerkin pro...
In this paper we present a collection of techniques used to formulate a projection-based reduced ord...
This thesis presents the a stabilized projection-based Reduced Order Model (ROM) formulation in low ...
The trade-off between solution accuracy and computational burden is fundamental in numerical simulat...
In this contribution we explore some numerical alternatives to derive efficient and robust low-order...
This report describes work performed from October 2007 through September 2009 under the Sandia Labor...
The development of a new generation of reactor presents several modelling challenges that cannot be ...
This article presents two new non-intrusive reduced order models based upon proper orthogonal decomp...
For over a century, reduced order models (ROMs) have been a fundamental discipline of theoretical fl...
This study focuses on stabilizing Reduced Order Model based on Proper Orthogonal Decomposition (POD)...
A novel reduced-order model (ROM) formulation for incompressible flows is presented with the key pro...
A novel reduced order model (ROM) for incompressible flows is developed by performing a Galerkin pro...
This work gives an overview of Reduced Order Model (ROM) applications employed within the context of...
A novel reduced order model (ROM) for incompressible flows is developed by performing a Galerkin pro...