A reduced-order model based on C-R mixed finite element and POD technique for coupled Stokes-Darcy system with solute transport
From MaRDI portal
Publication:6662450
DOI10.1007/S10596-023-10245-YMaRDI QIDQ6662450
Junpeng Song, Hongxing Rui, Zhijiang Kang
Publication date: 14 January 2025
Published in: Computational Geosciences (Search for Journal in Brave)
Could not fetch data.
Cites Work
- An optimized SPDMFE extrapolation approach based on the POD technique for 2D viscoelastic wave equation
- A stabilized MFE reduced-order extrapolation model based on POD for the 2D unsteady conduction-convection problem
- Analysis of a discontinuous finite element method for the coupled Stokes and Darcy problems
- A reduced finite element formulation based on POD method for two-dimensional solute transport problems
- Domain decomposition for coupled Stokes and Darcy flows
- On the stability of the reduced basis method for Stokes equations in parametrized domains
- Numerical analysis of a second-order IPDGFE method for the Allen-Cahn equation and the curvature-driven geometric flow
- Numerical analysis of an unconditionally energy-stable reduced-order finite element method for the Allen-Cahn phase field model
- A reduced-order finite element method based on POD for the incompressible miscible displacement problem
- Numerical simulation for a incompressible miscible displacement problem using a reduced-order finite element method based on POD technique
- Superconvergence of MAC scheme for a coupled free flow-porous media system with heat transport on non-uniform grids
- A reduced-order extrapolated finite difference iterative method for the Riemann-Liouville tempered fractional derivative equation
- A reduced-order extrapolated technique about the unknown coefficient vectors of solutions in the finite element method for hyperbolic type equation
- A stabilized mixed finite element method for coupled Stokes and Darcy flows with transport
- A computational method for approximating a Darcy-Stokes system governing a vuggy porous medium
- A reduced-order extrapolation algorithm based on CNLSMFE formulation and POD technique for two-dimensional Sobolev equations
- A reduced-order characteristic finite element method based on POD for optimal control problem governed by convection-diffusion equation
- Adaptive reduced-order controllers for a thermal flow system using proper orthogonal decomposition
- Unified finite element discretizations of coupled Darcy-Stokes flow
- Proper orthogonal decomposition for flow calculations and optimal control in a horizontal CVD reactor
- Locally Conservative Coupling of Stokes and Darcy Flows
- Domain Decomposition Methods for Solving Stokes--Darcy Problems with Boundary Integrals
- A reduced‐order extrapolated Crank–Nicolson collocation spectral method based on proper orthogonal decomposition for the two‐dimensional viscoelastic wave equations
- A POD-BASED REDUCED-ORDER STABILIZED CRANK–NICOLSON MFE FORMULATION FOR THE NON-STATIONARY PARABOLIZED NAVIER–STOKES EQUATIONS
- Mixed Finite Element Formulation and Error Estimates Based on Proper Orthogonal Decomposition for the Nonstationary Navier–Stokes Equations
- An improved error bound for reduced basis approximation of linear parabolic problems
- Parallel, non-iterative, multi-physics domain decomposition methods for time-dependent Stokes-Darcy systems
- Modeling and control of physical processes using proper orthogonal decomposition
- A reduced‐order modified finite difference method preserving unconditional energy‐stability for the Allen–Cahn equation
This page was built for publication: A reduced-order model based on C-R mixed finite element and POD technique for coupled Stokes-Darcy system with solute transport
Report a bug (only for logged in users!)Click here to report a bug for this page (MaRDI item Q6662450)
