Latest Articles for Fluid Dynamics

Investigating how thermal fluctuations influence fluid behavior in small systems.

A method for simulating fluid flow in complex environments.

Deep learning models improve fluid flow data quality by reducing noise efficiently.

A new AI model improves flow pattern reconstruction from limited data.

Explores how additional terms impact solutions in the Euler-Poisson equations.

The HOPU method enhances predictions in turbulent flow through advanced computational techniques.

A look at stabilizing gas flow through effective modeling and feedback controls.

This study examines the formation and stability of ventilated cavities in fluid dynamics.

Learn how planetary waves influence weather patterns and jet streams across the globe.

This study focuses on optimal control for fluid dynamics governed by Stokes equations.

Exploring how hot particles impact fluid behavior and viscosity.

A look into the behavior of polymeric fluids through the compressible FENE model.

An in-depth look at how wing movements affect flight efficiency.

Researchers develop efficient models for turbulent flow analysis using data-driven methods.

Investigating how particle spin effects matter behavior in extreme conditions.

A new neural network model improves predictions for turbulent combustion scenarios.

New machine learning tool predicts fluid behavior around complex shapes.

This article examines how particles impact fluid behavior in lid-driven cavities.

Examining Gubser flow's role in understanding extreme material behaviors in physics.

Effective methods for overcoming complex fluid dynamics challenges.

An exploration of sound behavior in bubbly liquids and its potential applications.

Examining how Reynolds number influences airflow and performance in low-aspect-ratio wings.

Research examines turbulent behavior in atomic BECs and its similarity to classical fluids.

Exploring new techniques for studying fluid movement in porous materials.

This article examines topological defects in two-dimensional active nematic liquid crystals.

Studying how moving cylinders create sound waves in fluids for practical applications.

Discover how droplets interact with surfaces through contact angle and friction.

This study investigates how bubbles burst in different fluids and the effects on droplet formation.

A look into how recurrent flows help analyze turbulence.

Learn how chaotic advection enhances fluid mixing for various applications.

Discover how raindrops behave on surfaces and the science behind their movement.

This study examines the behavior and dynamics of dusty plasmas and turbulence.

A new method improves fluid and solid contact in simulations.

A study on solitary water waves with constant vorticity and their implications.

This article discusses how sound waves affect droplets in liquids.

Researchers use MeshGraphNets to improve fluid dynamics simulations efficiently.

An exploration of dark solitons and their significance in various scientific fields.

Exploring connections between geometry, topology, and physical models through Lie groups.

A look into the Stokes operator's role in nonsmooth domains.

Research integrates machine learning and simulations to manage turbulent flows.