OceanMesh2D is a set of MATLAB functions with preprocessing and post-processing utilities
to generate two-dimensional (2-D) unstructured meshes for coastal ocean circulation …

This work is based on the seminar titled 'Resiliency in Numerical Algorithm Design for
Extreme Scale Simulations' held March 1–6, 2020, at Schloss Dagstuhl, that was attended …

The coincidence of two or more extreme events (precipitation and storm surge, for example)
may lead to severe floods in coastal cities. It is important to develop powerful numerical tools …

Cavitating flows are dominated by large gradients of physical properties and quantities
containing complicated interfacial structures and lots of multi-scale eddies that need to be …

A balanced-force control volume finite element method is presented for three-dimensional
interfacial flows with surface tension on adaptive anisotropic unstructured meshes. A new …

Numerical simulation of multiphase flow in porous media is of great importance in a wide
range of applications in science and engineering. The governing equations are the …

We present an hr-adaptivity framework for optimization of high-order meshes. This work
extends the r-adaptivity method by Dobrev et al.(Comput Fluids, 2020), where we utilized the …

Balancing accuracy and computational cost is a challenge in the modelling of turbulent
flows. A widely used method for turbulence modelling is large–eddy simulation (LES). LES …

Adaptive meshes are pivotal in numerical modeling and simulation, offering a means to
efficiently, precisely, and flexibly represent intricate physical phenomena, particularly when …

Geophysical domains typically exhibit intricate, irregular boundaries characterized by fractal-
like geometries, while underlying physical processes operate across a broad spectrum of …