On the implementation of an adaptive multirate framework for coupled transport and flow

02/08/2022

∙

In this work, a multirate in time approach resolving the different time scales of a convection-dominated transport and coupled fluid flow is developed and studied in view of goal-oriented error control by means of the Dual Weighted Residual (DWR) method. Key ingredients are an arbitrary degree discontinuous Galerkin time discretization of the underlying subproblems, an a posteriori error representation for the transport problem coupled with flow and its implementation using space-time tensor-product spaces. The error representation allows the separation of the temporal and spatial discretization error which serve as local error indicators for adaptive mesh refinement. The performance of the approach and its software implementation are studied by numerical convergence examples as well as an example of physical interest for convection-dominated transport.

READ FULL TEXT

On the implementation of an adaptive multirate framework for coupled transport and flow

A Cost-Efficient Space-Time Adaptive Algorithm for Coupled Flow and Transport

Flexible goal-oriented space-time adaptivity for coupled Stokes flow and convection-dominated transport

Adaptive discretization refinement for discrete models of coupled mechanics and mass transport in concrete

Simplex space-time meshes in thermally coupled two-phase flow simulations of mold filling

Variational partition-of-unity localizations of space-time dual weighted residual estimators for parabolic problems

An integrated numerical model for coupled poro-hydro-mechanics and fracture propagation using embedded meshes

A monolithic space-time temporal multirate finite element framework for interface and volume coupled problems

On the implementation of an adaptive multirate framework for coupled transport and flow

Related Research

A Cost-Efficient Space-Time Adaptive Algorithm for Coupled Flow and Transport

Flexible goal-oriented space-time adaptivity for coupled Stokes flow and convection-dominated transport

Adaptive discretization refinement for discrete models of coupled mechanics and mass transport in concrete

Simplex space-time meshes in thermally coupled two-phase flow simulations of mold filling

Variational partition-of-unity localizations of space-time dual weighted residual estimators for parabolic problems

An integrated numerical model for coupled poro-hydro-mechanics and fracture propagation using embedded meshes

A monolithic space-time temporal multirate finite element framework for interface and volume coupled problems