Latest Articles for Fluid Dynamics

This article discusses the unique shear viscosity behavior in graphene compared to traditional fluids.

Study explores how fluids behave under gravity, focusing on shear-free models.

Examining how dimers move and interact in confined active matter systems.

Explore how conservation laws shape our understanding of mass and energy.

Exploring how randomness affects fluid behavior in 2D through Navier-Stokes equations.

The hybrid method improves gas flow simulations through effective computation techniques.

Discover the fascinating behaviors and properties of odd viscous liquids.

Study reveals how magnets behave differently in granular gas systems.

Study reveals how hydrophobic spheres affect splash and drag in water.

An overview of steady streaming and its impact on modern technology.

FB-RK(3,2) enhances accuracy and efficiency in shallow water simulations.

This article presents a novel approach to simulate two-fluid interactions effectively.

Researchers find new ways to simplify complex scientific models while preserving key information.

Explore how angular momentum and turbulence influence the life stages of stars.

Exploring how bubbles behave when they enter narrow tubes.

This study explores how mudstones affect pressure in subsurface reservoirs.

A study of turbulence dynamics using reduced-order models reveals complex interactions.

A look into k-essence and superfluid dynamics revealing insights about the universe.

Exploring the mechanics of tiny Laval nozzles for gas flow advancements.

A novel approach for modeling how floating structures respond to ocean waves.

A closer look at how scientists study chaotic systems and their behaviors.

This study examines the differences in turbulence between classical and quantum fluids.

Research reveals key insights on energy loss in star-planet interactions.

A robot designed to replicate the swimming patterns of bacteria using flagella.

A look at transport equations and their significance across various fields.

This article discusses the unique properties of odd viscous liquids under rotation.

A look into how droplets form and their significance in various fields.

This article examines how droplets behave when levitated by sound waves.

Explore the dynamics of high-speed conductive fluids in strong magnetic fields.

Examining how Reynolds stress affects fluid flow near surfaces.

Exploring the unique behaviors of fluids influenced by continuous chemical reactions.

Analyzing how shear forces influence droplet creation in various industries.

New findings reveal unique floating behaviors of glycerol clusters under electric fields.

This article discusses how waves travel in compressible fluids and key influencing factors.

Investigating how self-propelling particles behave in active fluids.

An overview of the role of MRI in turbulent accretion disks.

Study reveals how flat particles buckle under pressure at liquid surfaces.

This method improves fluid flow analysis by reducing computations while maintaining accuracy.

A novel approach simplifies the calculation of self-diffusion coefficients in molecular dynamics.

Research reveals potential of liquid diodes in controlling fluid movement.