Latest Articles for Fluid Dynamics

This study examines Rossby wave instability and its role in planet formation.

Examining how liquid and gas phases exist together under varying energy conditions.

This study investigates the behavior of liquid films for various applications.

A new approach for nonlinear systems enhances modeling efficiency and accuracy.

This article presents a novel approach to tackle moving interface challenges in advection-diffusion problems.

A study on how fluid particles move while preserving volume.

A look into the behavior of binary fluid mixtures and their turbulence.

Exploring how droplet height affects breakup and size distribution in various applications.

Examining the dynamics of vortex interactions in quantum fluids.

This article examines how temperature affects fluid movement within cells.

A deep look into fluid behavior near surfaces under turbulence.

A look at new dynamic modeling techniques for better turbulent flow simulations.

A fresh perspective on fluid dynamics using sub-Riemannian Navier-Stokes equations.

This article explores how helical and non-helical dynamos generate magnetic fields.

New methods enhance fluid flow calculations in various industries.

Research reveals rapid fluid behavior in heavy ion collisions and its implications.

A look into the unique behaviors of active fluids and their applications.

Examining the Kaup–Kupershmidt equations and their unique soliton solutions.

Analyzing pressure correction methods for fluid dynamics error management in simulations.

Exploring connections between quantum mechanics and fluid dynamics offers new insights.

Learn how submesoscale filaments influence ocean movement and marine ecosystems.

Exploring how water droplets mimic quantum particle behavior through diffraction.

This article examines breather gas fission in nonlinear wave systems and its implications.

This study analyzes three-dimensional turbulent boundary layers around swept blunt bodies.

Study reveals how surface roughness affects air behavior at high speeds.

Study reveals complex behavior in counter-rotating Taylor-Couette flow through period doubling.

Combining AI and experimental data to improve turbulence measurements and predictions.

A look at how bubbles influence fluid behavior and turbulence.

New insights on heat transfer in turbulent fluid flows.

Research enhances understanding of turbulent fluid behavior using modern data-driven methods.

Exploring how active polymers behave in fluid environments.

New method improves efficiency in fluid simulations, enhancing prediction accuracy.

A study on fluid dynamics in elastic porous materials with real-world applications.

Study reveals water jet behavior and droplet formation on heated surfaces.

A look at stationary flows in ideal fluids and their behavior.

Examining gas dynamics in less dense conditions for better predictions and applications.

Research reveals unique properties of solitary waves in dipolar Bose-Einstein condensates.

New method improves predictions in turbulent fluid dynamics using reduced complexity.

Research reveals strong solutions for heat and magnetic fields in fluids.

Examining how size and density affect particle travel in water currents.