Comparison of multimesh \(hp\)-FEM to interpolation and projection methods for spatial coupling of thermal and neutron diffusion calculations
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Publication:630348
DOI10.1016/j.jcp.2010.10.034zbMath1217.82129OpenAlexW2168564297MaRDI QIDQ630348
Glen Hansen, Hyeongkae Park, Lenka Dubcová, Pavel Šolín
Publication date: 17 March 2011
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2010.10.034
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Related Items (5)
A novel vector potential formulation of 3D Navier-Stokes equations with through-flow boundaries by a local meshless method ⋮ The localized differential quadrature method for two-dimensional stream function formulation of Navier-Stokes equations ⋮ The role of data transfer on the selection of a single vs. multiple mesh architecture for tightly coupled multiphysics applications ⋮ Solving elliptic eigenproblems with adaptive multimesh \(hp\)-FEM ⋮ Hermes2D, a C++ library for rapid development of adaptive \(hp\)-FEM and \(hp\)-DG solvers
Uses Software
Cites Work
- Adaptive hp-FEM with dynamical meshes for transient heat and moisture transfer problems
- Monolithic discretization of linear thermoelasticity problems via adaptive multimesh \(hp\)-FEM
- A fully automatic \(hp\)-adaptivity
- The \(h,p\) and \(h\)-\(p\) version of the finite element method; basis theory and applications
- Arbitrary-level hanging nodes and automatic adaptivity in the \(hp\)-FEM
- Thepandh-pVersions of the Finite Element Method, Basic Principles and Properties
- Common‐refinement‐based data transfer between non‐matching meshes in multiphysics simulations
- Spectral/hp Element Methods for Computational Fluid Dynamics
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