Latest Articles for Fluid Dynamics

Exploring the behavior and applications of self-lubricating multicomponent drops.

This study examines fluid behavior in porous materials using a two-scale approach.

Innovative simulation technique enhances understanding of droplets in complex flow environments.

Methods for improving solution processes near complex mathematical singularities.

New models improve predictions for complex granular flows in various settings.

A look at new methods for analyzing gas flows, focusing on non-ideal gases.

New sensors provide precise pressure measurement in microfluidic systems.

Explore how energy is exchanged in small particles within fluids.

This study explores the behavior of shock waves in compressible fluids over time.

Examining how viscosity affects the Universe's accelerated expansion.

This article presents advanced methods for analyzing fluid dynamics and heat transfer in complex shapes.

Examining how solitary waves maintain their form under slight disturbances.

A study on how groups move without pressure through attraction and repulsion.

Study reveals how Magneto-Coriolis modes affect Earth's magnetic field variations.

Research shows promise in using AI to improve fluid flow predictions.

New methods enhance understanding of fluid dynamics in extreme nuclear conditions.

Examining how polymers react under stress during capillary-driven flows.

Study reveals how wall conductivity shapes fluid movement in magnetic fields.

A new method enhances solutions for Navier-Stokes equations in fluid dynamics.

A look at how random forces affect fluid flows in two dimensions.

A new method reduces artificial sound waves in fluid flow simulations.

Researching how fluids and structures influence each other, especially under random conditions.

New methods improve accuracy in convection-dominated models using advanced mesh techniques.

This study examines the effects of sideways forces on fluid motion and heat transport.

New modeling approach enhances predictions in particle-laden fluid dynamics.

A study of shock waves and their evolving interfaces in mathematical physics.

New algorithms enhance the shifted POD method for better fluid dynamics modeling.

A new wall-model improves turbulent flow predictions with reduced computational costs.

Using lattice Boltzmann method to explore behavior of ellipsoidal particles in fluids.

A fresh approach models complex interactions of phoretic colloids effectively.

Recent models improve our understanding of fluid turbulence in natural and industrial systems.

A study on using quantum annealing for effective load balancing in computing systems.

CoNFiLD model offers efficient turbulence simulation for fluid dynamics applications.

Examining how a sphere behaves when entering a calm body of liquid.

Exploring fluid behavior at supercritical pressures for energy efficiency.

This study examines how water flow influences biofilm growth of Bacillus subtilis.

Examining water flow patterns over various surface shapes.

ExoCubed simulates planetary atmospheres using a cubed-sphere format for better accuracy.

Exploring how noise affects changes in fluid flow behaviors and patterns.

This study examines how noise impacts the movement of elongated particles in fluids.