Latest Articles for Fluid Dynamics

New kinetic model improves predictions of gas behavior under varying conditions.

A look at slope limiters and their role in numerical methods.

AI techniques enhance control of convection cells in heated fluids.

An overview of Rayleigh-Bénard convection and its influencing factors.

Researchers develop data-driven methods to analyze chaotic behaviors in weather and fluid dynamics.

Study reveals the impact of thermal fluctuations on liquid droplets formation.

Examining stable positions of objects in slowly moving fluids.

Machine learning techniques are enhancing fluid flow modeling and predictions.

Research reveals new methods to enhance heat transfer in tiny channels.

Research on how droplets behave on soft materials has many practical applications.

Introducing a method that keeps values within desired limits for better numerical solutions.

Research on active nematics reveals complex behaviors in confined geometries like annuli.

A new method enhances mesh refinement in simulations using swarm reinforcement learning.

Study shows machine learning improves predictions for drop coalescence in microfluidics.

Research improves understanding of fluid interactions in machinery with complex geometries.

Enhancing simplified models with real-time data for better accuracy.

Exploring how fluid movement inside muscle fibers affects contraction and performance.

Exploring pressure behavior in weak solutions of the incompressible Euler equations.

A look into the complexities of turbulence and its effects.

Small ionic swimmers could change healthcare and robotics through precise movement.

Research reveals how Brownian particles behave with changing pressures and temperatures.

New methods improve understanding of turbulent flows using machine learning techniques.

Quantum computers may transform fluid flow simulations, improving weather predictions and engineering designs.

Exploring the behavior of non-equilibrium fluids and their unique characteristics.

Fluid Mode Spectroscopy offers a direct way to assess viscosity in liquids.

Examining the role of turbulent convection in exciting solar inertial modes.

Examining energy exchange between gravity-capillary and sloshing waves in fluids.

An in-depth look at the complexities of wall-bounded turbulence in fluid dynamics.

Explore the complex behaviors of membranes and their importance in cellular functions.

Exploring quantum algorithms for efficient fluid dynamics simulations.

A look into the movement behaviors of elliptic disks in fluids.

Gym-preCICE simplifies reinforcement learning for fluid dynamics applications.

Exploring the link between chiral particles and magnetic fields in the universe.

This study examines key design factors affecting porous bleed system performance.

Study examines shock wave interactions in transonic nozzles and their effects on performance.

Optimizations improve the lattice Boltzmann method for better GPU performance in fluid simulations.

A look into how magnetic fields influence shallow water flow dynamics.

Research on fluid behavior during mixing reveals important insights into droplet formation.

This study explores how mixing occurs in turbulent fountains under different conditions.

A study on how ethanol and anise oil mix in turbulent water.