Latest Articles for Fluid Dynamics

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.

Explore how adhesion works in soft materials and wet environments.

This article explains excess entropy and its significance in Yukawa fluids.

A look into the KdV equation and its implications for wave behavior.

uniGasFoam enhances how we study gases in low-density environments.

Learn how Brinkman fluids behave under different forces in various environments.

Rational neural networks enhance fluid dynamics accuracy and efficiency in simulations.

Discover the SALT method for improved fluid dynamics modeling.

Improving simulations of multiphase fluid flows using modern GPU technology.

Methods to enhance efficiency in simulating complex turbulent flows.

A study on how symmetries shape fluid flow behaviors.

New method improves efficiency and accuracy in astrophysical simulations.

This study examines fluid behavior and wave patterns in curved pipes.

Introducing a new method for Biot's consolidation model using lattice Boltzmann techniques.

Research on walking droplets reveals insights into classical and quantum physics.

Research reveals high particle density shifts focus to outer walls in microfluidic devices.

Research uses Graph Neural Networks to predict force chains in dense suspensions.

A new approach enhances predictions for compressible turbulence in fluid dynamics.

A method for efficient modeling of complex systems while preserving key properties.

A study on how thermal fluctuations affect fluid dynamics in turbulent conditions.

This article examines how fluids behave in underground rocks and its implications.

New approaches improve modeling of physical behaviors in varying geometries.

Analyzing factors affecting flow stability in porous channels.

Combining machine learning with traditional methods improves turbulence predictions and efficiency.

A new method enhances particle distribution in SPH simulations for better accuracy.

A look at how multicomponent vesicles behave in flow and their relevance to biology.

A look into how Eckart streaming jets operate and their practical applications.

This article discusses a new method for improved simulations in magnetohydrodynamics.