Physics–Dynamics Coupling in Weather, Climate, and Earth System Models: Challenges and
Recent Progress in: Monthly Weather Review Volume 146 Issue 11 (2018) Jump to Content …

This paper is focused on the numerical and computational issues associated to ocean-
atmosphere coupling. It is shown that usual coupling methods do not provide the solution to …

A method is proposed to improve two aspects of numerical simulations for a model of two
fluids coupled across a flat interface. This problem is motivated by atmosphere-ocean …

The purpose of this article is to propose and analyze a new coupled multiphysics model and
a decoupled stabilized finite element method for the closed-loop geothermal system, which …

In this paper, a stabilized Stokes–Stokes system with Nitsche's type interface conditions is
presented. These conditions are commonly employed in many multi-physical fields …

In this work, two fully discrete grad-div stabilized finite element schemes for the fluid-fluid
interaction model are considered. The first scheme is standard graddiv stabilized scheme …

A statistical turbulence model is proposed for ensemble calculations with two fluids coupled
across a flat interface, motivated by atmosphere-ocean interaction. For applications, like …

The proposed method aims to approximate a solution of a fluid–fluid interaction problem in
case of low viscosities. The nonlinear interface condition on the joint boundary allows for this …

State-of-the-art Earth system models, like the ones used in the Coupled Model
Intercomparison Project Phase 6 (CMIP6), suffer from temporal inconsistencies at the ocean …

Component coupling is a crucial part of climate models, such as DOE's E3SM (Caldwell et
al., 2019). A common coupling strategy in climate models is for their components to …