Latest Articles for Fluid Dynamics

Study reveals key insights into magnetic behavior in astrophysical disks.

Examining stable solutions for equations governing gaseous stars influenced by gravity.

Examining interactions between superfluid and normal fluid phases in Helium-4.

This article examines how time step sizes affect accuracy in nonlinear simulations.

Solitons maintain shape while traveling, revealing insights into nonlinear wave behavior.

This study examines how binary fluids interact with randomness and phase behavior.

Investigating how ellipsoidal particles move in fluids reveals surprising behaviors.

Lagrangian Flow Networks offer new insights into fluid dynamics and behavior.

This study examines how dipolar disks interact in 2D fluid models.

Research reveals unexpected behaviors of fluids in tiny spaces, challenging traditional theories.

This article examines the behavior and reconnection of vortices in fluid dynamics.

Research uncovers unexpected fluid behaviors in cryogenic helium at low temperatures.

An in-depth look at the challenges and solutions within the Navier-Stokes equations.

A new method enhances fluid surface measurement using digital holography.

This study examines conditions for positive radial solutions in annular domains.

Research reveals how liquids move in nanopores, impacting energy storage and water filtration.

A study on shock waves and their behavior in fluid dynamics.

New machine learning models improve predictions in fluid dynamics.

This article examines shock waves in gas with changing density.

Exploring the behavior and challenges of thin liquid films in industrial coatings.

A look at how vortices shape our understanding of field theories.

Examining how ring polymers behave and change viscosity under different conditions.

Exploring the behavior of ions in nanochannels for diverse applications.

An overview of fluid stability and its significance in various applications.

Examining the behaviors and impacts of compressible convection in stratified environments.

A breakthrough model improves understanding of fluid interactions in deformable porous media.

Enhancing mixing efficiency in reactors to lower costs and improve quality.

This study examines how surface roughness affects turbulent flow behavior.

This article examines rotor-stator mixers and their impact on mixing efficiency.

Streamline analysis of complex systems using data and advanced modeling techniques.

Shearless curves influence particle behavior in fluids and plasmas.

New technique improves temperature management in fluid-cooled battery packs using AI.

Research enhances LDG method for better accuracy in fluid flow problems.

Research sheds light on quantum shock waves in one-dimensional Bose gases.

A look into how bubbles and drops interact in turbulent conditions.

This article examines how decelerating flow creates instability and forms vortices.

Learn how turbulence affects various natural and industrial processes.

Researching heat transfer dynamics using advanced simulations in complex geometries.

This study examines how substances mix in flowing liquids and gases.

Exploring how liquids interact with surfaces impacts various industries.