Latest Articles for Fluid Dynamics

A new approach to improving fluid simulation accuracy through effective outflow management.

Research reveals unique behaviors in active glass-forming liquids challenging traditional principles.

A high-order approach enhances understanding of two-layer water flows.

Exploring the Burgers-Rayleigh-Bénard model for heat transfer efficiency.

Examining how polymer flooding affects sand in poorly consolidated rocks.

Study reveals how microswimmers interact with complex fluids and their effects on movement.

Exploring the hybridized discontinuous Galerkin method for fluid dynamics.

Explore how surfactants affect surface waves in liquid films.

Improved techniques enhance stability and accuracy in solving conservation laws.

Study reveals how droplets behave on bouncing surfaces and its applications.

New methods enhance understanding of fluid mixtures with multiple components.

New methods enhance predictions in complex scientific systems with neural operators.

Research reveals stable configurations and energy pathways of vortex crystals in superfluid helium.

Research uncovers distinct Leray-Hopf solutions in fluid dynamics.

This study presents a method for creating synthetic data through diffusion models in physics.

A new approach to fluid modeling using machine learning and hidden variables.

Research addresses spurious currents in microfluidic simulations using artificial viscosity.

Research reveals methods for managing airfoil wakes to boost efficiency and performance.

An experiment revealing how evaporating droplets create unique light interference patterns.

Exploring two new methods for effective gradient flow solutions.

New insights into Faraday waves reveal complex fluid dynamics in Hele-Shaw cells.

Study validates lattice Boltzmann method for improved gas flow understanding in reactors.

New methods improve the speed and accuracy of compressible flow simulations.

Using neural networks to solve challenging equations with sudden changes.

Exploring how convection affects tectonic plate movements on Earth.

A data-driven approach improves accuracy in estimating temporal averages for chaotic systems.

This article examines double diffusion and its effects on ocean behavior.

This article examines how shock absorber valves function and their impact on vehicle performance.

A new model improves predictions of turbulent fluid behavior using advanced techniques.

Investigating how self-assembly and phase separation influence polymer solutions.

Study of droplet movement on textured surfaces without external energy.

This article examines how surfactants influence droplet merging in various applications.

Study examines how water jets cause mixed-phase turbulence in various scenarios.

A new method improves fluid simulations with less time and resources.

New solver improves efficiency in Stokes flow calculations critical for various fields.

Engineers use machine learning to improve accuracy in fluid dynamics simulations.

A new method enhances GPU setups for fluid dynamics simulations via machine learning.

Study reveals stability properties of solitary waves using numerical methods.

A look into the role of spin in fluid dynamics, especially in extreme conditions.

Study reveals how satellite bubbles form during fluid bridge breakup.