Latest Articles for Fluid Dynamics

This study examines ergodic behavior in modified flows on unique surfaces.

Study reveals fluid behavior influenced by heat in annular spaces.

New reactor designs improve mixing and heat transfer efficiency.

Introducing a model to better simulate behaviors of dense particle mixtures.

Exploring AI's role in improving predictions of turbulent fluid flows.

Researching how particles fall through turbulent air impacts climate and air quality predictions.

This article explores the dynamics of two-layer water waves and their implications.

Research unveils how charge distribution affects fluid movement in treated nanochannels.

Explore the interaction of vortices and the role of stability islands in fluid flow.

New model speeds up airfoil design using machine learning.

Researchers use AI to improve predictions for complex fluid dynamics.

Study on how temperature changes affect fluid behavior and interactions.

This study examines thermal convection behaviors in a rotating gas within a centrifuge setup.

A look into solving complex fluid dynamics with the Weak Galerkin method.

Research reveals how active turbulence changes with confinement height and bacterial size.

Using neural networks to predict ocean gravity currents with improved accuracy.

A new method improves fluid flow simulations using neural networks and finite element methods.

Non-reflecting boundary conditions improve accuracy in thermal flow simulations using LBM.

Exploring vector fields in irregular spaces and their real-world impacts.

A study on turbulence using a unique model for energy transfer.

A deep dive into energy dynamics in gases under shear conditions.

A look into the behavior and significance of electron and ion holes in plasmas.

Discover how wind influences water dynamics and creates turbulence beneath the surface.

Combining machine learning with fluid dynamics for better shock wave detection.

New methods enhance efficiency in simulating complex physical systems.

RoseNNa simplifies the use of neural networks in computational fluid dynamics simulations.

This study examines how uneven particle arrangements affect fluid dynamics.

This study highlights how initial conditions affect Richtmyer-Meshkov instability and fluid mixing.

A look into how waves behave in different water layers.

This study examines how different fluids interact with magnetically charged black holes.

Explore how local fluid measurements aid in predicting broader behaviors.

This article examines parameter uncertainties in thermodynamic models and their effects on predictions.

Study reveals how pressure influences flow behavior in soft particle systems.

Investigating fluid behavior with time-dependent boundary conditions.

An overview of how fluids influence and interact with solid structures.

A study of fluid flow behaviors in various experimental conditions.

A look into modern techniques for controlling complex systems over time and space.

This article examines how surface types influence water droplet dynamics.

Learn how shell models help analyze turbulent flow and extreme events.

A look into the random movement of particles in fluids.