Latest Articles for Fluid Dynamics

A new framework for analyzing hairpin vortices reveals insights into turbulent flows.

This study explores how water affects the flow of granular materials.

Exploring the role of matrix Schrödinger operators in wave behavior and stability.

A look into how temperature anomalies impact stellar behavior.

A new method improves accuracy and efficiency in simulating blood flow in arteries.

Gubser flow reveals insights into fluid behavior in extreme conditions.

A look at how energy shifts in turbulent flows.

Utilizing self-supervised learning to enhance analysis of partial differential equations.

Researchers study how bubbles move in nematic liquid crystals, revealing insights about tiny swimmers.

Examining how defects evolve in active nematic systems under varying activity and flow.

This study focuses on how droplets evaporate inside tubes and their key factors.

Researchers use deep learning to improve turbulence models in fluid dynamics.

A new method tackles checkerboard patterns in fluid dynamics simulations.

Researchers connect turbulence behavior to thermodynamics, revealing new insights into fluid dynamics.

Research finds mixed Sinc kernels enhance fluid dynamics simulations significantly.

Examining how heavy particles behave in turbulent environments and the formation of caustics.

This article discusses energy transfer in turbulent flows and its implications.

This article explores water experiments simulating black holes and unique wave behaviors.

Exploring fluid behavior in heavy-ion collisions and the Maximum Entropy method.

This article presents a new approach to viscous dissipation in natural convection.

A new approach enhances simulation efficiency for fluid dynamics.

A study on reduced order models for fluid flow around porous obstacles.

A new method automates mesh generation for CFD, improving speed and accuracy.

Examining the roles of stability and energy in semilinear elliptic problems.

Examining how rotating micro-swimmers move and interact near surfaces.

This study examines how thick liquids influence wave generation by wind.

This study examines the interplay between sound waves and flame behavior in slit flame configurations.

An overview of hydroelastic waves and their impact on water and ice interaction.

Explore how reactive transport modeling aids in environmental science and energy extraction.

New techniques aim to reduce drag and improve fuel efficiency in vehicles.

This article examines how bubbles influence each other and their applications.

This article examines how rotation influences heat transfer in fluids through Rayleigh-Bénard convection.

Introducing an efficient method for tackling complex conservation laws on irregular surfaces.

Research on fish swimming patterns aids in designing efficient underwater robots.

A look into Sylvester matrix equations and efficient methods for solving them.

Exploring how active fluids behave differently from regular fluids and their potential applications.

Explore how past experiences shape the behavior of non-equilibrium systems.

Examining the dynamics and applications of jet fragmentation in various industries.

Explore how temperature changes affect fluid motion in a ring-shaped area.

A new method improves drifter placement for better fluid data collection.