Latest Articles for Fluid Dynamics

This article explores unique properties of solutions in quasilinear elliptic equations.

Examining how equations model complex systems over time.

New insights into particle dynamics in confined fluids and their applications.

A look into how machine learning improves the study of material flow.

Introducing TFPONets for solving interface problems with deep learning techniques.

Introducing ComFNO, a method for tackling complex differential equations using deep learning.

Examining how rotation influences fluid stability between moving plates.

Study reveals unexpected interactions of particles in viscous fluids near walls.

Exploring how liquid droplets move on solid surfaces and the effects of temperature and friction.

Examining the interplay of fluids, magnetism, and spin in high-energy environments.

This study reveals how droplets form intricate patterns during evaporation.

Exploring the breakup of liquid jets and its implications for various industries.

A new method enhances moisture representation in weather models.

A new method speeds up fluid simulations using a blend of machine learning and CFD.

This research advances modeling of turbulent flows in rotating systems.

New insights into controlling tiny particles for various applications.

Study reveals how critical Casimir forces levitate colloids above patterned surfaces.

New AI techniques improve fluid dynamics modeling accuracy and efficiency.

A look into how different fluid components interact within superfluids.

Learn how viscoelastic fluids behave in various applications.

Examining long-time tails in classical and quantum particle interactions.

This study examines how collapsing vapor bubbles affect nearby solid materials.

This study explores how particles influence fluid movement in turbulent conditions.

This study investigates the interplay between fluids and flexible structures.

Machine learning refines predictions for gas turbine performance and efficiency.

Combining neural and diffusion models improves accuracy in turbulence predictions.

Research reveals new methods for studying complex fluid behaviors under rapid rotation.

This study examines how correlation functions reveal system behaviors in response to environmental changes.

A look into the least action principle and its role in physics.

This study highlights the effects of heating direction on carbon dioxide flow and heat transfer.

A look at how intruders affect granular materials and their movement.

Exploring chaotic behavior in fluid dynamics through Taylor-Couette flow findings.

Explore the role of Lattice Boltzmann Method in studying multiphase flows.

A novel approach unites solid and fluid dynamics through particle flow maps.

Research highlights using influence functions to enhance PINN performance in physics problems.

Exploring the relationship between fluid flow and surface properties.

Examining how fluids and solids interact in everyday scenarios.

An overview of superfluidity and its mathematical modeling with the HVBK equations.

Introducing L/SES, a method to analyze turbulence efficiently and accurately.

Exploring the role of internal waves in ocean behavior and energy transfer.