Latest Articles for Fluid Dynamics

Exploring how active particles behave under confinement and fluid flow.

This study reveals how fetch length affects turbulent boundary layer recovery in fluid dynamics.

Combining methods to improve fluid dynamics modeling and solve challenges efficiently.

Research sheds light on droplet behavior on conical fibers.

This study enhances Density Functional Theory using new models for hard-sphere fluids.

A look into chaotic behavior and its mathematical models.

Couette flow demonstrates how fluid stability can change with varying conditions.

This study reveals unexpected movement patterns of colloids in solute gradients.

A look into fluid behavior through the 3D unsteady Stokes system.

Innovative methods improve understanding of fluid mixtures in various applications.

Research reveals how liquid metals can generate electricity from heat.

Study enhances agents' performance in watery settings through unsupervised pretraining.

Examining turbulence models and data assimilation for fluid behavior predictions.

This article discusses unusual turbulence behaviors observed from active grids in wind tunnels.

A study on wave behavior using the Degasperis-Procesi equation.

Examining how gravitational waves form during early universe phase transitions.

Researchers improve models of electrified liquid drops by incorporating Willmore energy.

This research improves heat flux predictions using a hybrid approach.

A new deep learning model enhances wall-shear stress measurement accuracy.

This study presents a novel method for modeling water flows influenced by density changes.

Study of particle movement in confined environments with fixed obstacles.

Advancements in microrobots for precise fluid transport in medical applications.

New research highlights mathematical identities in turbulent flows.

A novel approach to calculating movements of particles in three-dimensional fluids.

Discover how FastVPINNs improve fluid dynamics modeling using neural networks.

New methods combine neural networks and finite element techniques to improve fluid flow simulations.

Exploring how particle sizes affect porosity in various materials.

A new model provides accurate predictions for crude oil viscosity across temperatures.

This study tests riblets on hydrofoils to reduce drag for smaller vehicles.

Exploring the behavior and interactions of vortices within two-dimensional supersolids.

Exploring how active rods interact with their environment.

New methods utilize single snapshots for effective turbulence analysis.

Exploring the Lattice Boltzmann Method for fluid dynamics in transonic flows.

Analyzing particle behavior using the relaxation time approximation and its implications.

A look at numerical methods for efficient fluid flow solutions.

This study examines how liquids flow through granular materials, highlighting key drainage mechanisms.

Researchers create simpler models to predict complex fluid behaviors efficiently.

Researchers unveil the mechanics behind the swimming of tiny organisms using cilia and flagella.

Spinners interact and synchronize on a vibrating liquid surface, revealing fascinating behaviors.

A look at how the BGK model simplifies the study of gas behavior.