The aim of the present numerical study is to show that the recently developed Alternating Direction Reconstruction Immersed Boundary Method (ADR-IBM) (Giannenas and Laizet in Appl Math Model 99:606–627, 2021) can be used for Fluid–Structure …
Hyperpycnal flows are observed when the density of a fluid entering into a quiescent environment is greater than that of the ambient fluid. This difference can be due to salinity, temperature, concentration, turbidity, or a combination of them. Over …
This work aims to break many of the barriers to entry in a Navier-Stokes solver by coupling it to a Jupyter sandbox environment. For students in computational fluid dynamics, it provides direct hands-on experience and a safe place for practising and learning, while for advanced users and code developers, it works as a rapid prototyping tool.
Theoretical and experimental interest in transport and deposition of sediments from rivers to oceans has increased rapidly over the last two decades. The marine ecosystem is strongly affected by mixing at river mouths, with for instance anthropogenic …
Xcompact3D is a Fortran 90–95 open-source framework designed for fast and accurate simulations of turbulent flows, targeting CPU-based supercomputers. It is an evolution of the flow solver Incompact3D which was initially designed in France in the …
Hyperpycnal flows are observed when the density of a fluid entering in a quiescent basin is greater than that in the ambient fluid. This difference can be due to temperature, salinity, turbidity, concentration, or a combination of them. When the …
Hyperpycnal flows are produced when the density of a fluid flowing in a relatively quiescent basin is greater than the density of the fluid in the basin. The density differences can be due to the difference in temperatures, salinity, turbidity, …