Latest Articles for Fluid Dynamics

New method enhances fluid movement modeling in complex underground environments.

New preconditioner improves fluid simulations in porous materials for various industries.

Explore the complexities of conservation laws impacted by sudden changes in flux.

Study of edge-waves and slopes in baroclinic instability enhances weather and climate models.

Study examines how ion-electron mass ratios affect plasma turbulence behavior.

Learn the basics of solid and fluid mechanics.

Study reveals how droplets interact through chemical signals and fluid movements.

This study investigates the stability of a two-dimensional fluid system under varying conditions.

Explore the fascinating behavior of vortices in superfluids within optical lattices.

Explore the effects of surface tension on liquid behavior.

Study reveals how structural features affect airfoil stability and performance in wind.

A study reveals insights into solar turbulence and magnetic interactions.

Machine learning offers insights into the behavior of viscoelastic fluids across industries.

An overview of the links between Navier-Stokes equations and quantum gases.

New meshless methods offer improved simulations for fluid movement in porous materials.

Analyzing solutions to Navier-Stokes equations in steady flows under suction.

Examining stability, causality, and fluid behavior in extreme conditions.

Research sheds light on hyperon polarization during high-energy collisions.

Research highlights the behavior of waves in the fifth-order KdV equation.

A look into Stokes waves, their stability, and importance in science.

A new method shows promise in accurately measuring fluid movement in complex systems.

Learn how immersed boundary methods improve fluid simulations in complex geometries.

Study reveals weak solutions in fluid flows with concentrated vorticity in circular shapes.

Examining how turbophoresis impacts particle behavior in turbulent environments.

Study examines how turbulence and porosity affect wake formation in wind turbines.

An overview of finite-volume schemes and their applications in numerical analysis.

A look into the HDG method and its impact on numerical analysis.

Examining the impact of discrete conservation laws on wave phenomena in science.

A new model analyzes how substances flow through changing materials, with implications for medicine.

New method enhances understanding of autoencoder outputs in fluid dynamics.

A new MPM implementation improves gas flow simulations significantly.

New methods improve the simulation of arterial blood flow using artificial intelligence.

Research sheds light on worm-like micellar solutions and their applications in optics.

A study of V-flames reveals their complex dynamics and stability factors.

Examining how different sized particles settle in fluids for various applications.

This article reviews techniques to free trapped air bubbles in liquids.

An overview of how liquids interact with surfaces and the forces involved.

Study reveals insights into the stability properties of the Taylor-Green vortex.

Exploring how energy moves in systems towards stability.

A look at capillary action in space and its implications for life.