Latest Articles for Fluid Dynamics

A novel approach improves modeling of fluid interactions with changing densities.

This article examines how particles spread in granular materials and their implications.

Exploring the Lattice Boltzmann Method's impact on fluid dynamics simulations.

Microvortex generators enhance airflow control over high-speed vehicles to improve performance.

Examining how rotation influences electrical conductivity in high-energy physics.

This study examines normalized solutions to the quasilinear Schrödinger equation and their significance.

Research reveals how gas particle energy affects shock wave behavior.

This study examines how turbulence affects flame behavior in scramjet engines.

This article examines how Stochastic Model A explains viscosity during phase transitions.

This article examines how magnetic fields behave in chaotic gas flows.

New model promises better predictions of turbulent flows.

Researchers develop a model to predict droplet behavior under electric fields in viscous liquids.

Researching fluid flow and surface interactions for better efficiency.

New methods improve fluid simulation efficiency and accuracy.

A study on fluid behavior in confined spaces and its modeling.

A new approach merges techniques for accurate fluid flow simulation across conditions.

New techniques improve accuracy and efficiency in blood flow simulations.

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.