Latest Articles for Fluid Dynamics

Examining how thermal noise affects turbulent fluid flows.

Research reveals how ferrofluid can effectively lower drag in water flows.

An overview of viscoelastic fluids and the Oldroyd-B model.

Study reveals fluid pressure behavior during earthquake events.

Explore the influence of water waves on drift and ocean dynamics.

A study on weak solutions for compressible non-Newtonian fluids and their behaviors.

This study examines transonic buffet and its effects on aircraft performance.

Research on nonlocal symmetries and PDEs leads to significant insights in science.

Exploring the dynamics of liquid movement in microfluidic devices.

Exploring the behavior of magnetic fields in thin layered environments.

A new approach improves solutions for particle movement in fluids with changing boundaries.

Exploring how fractals influence plant growth and physical phenomena.

Study improves simulations of small spheres swimming close to boundaries.

This article explores the effects of rapid rotation on thermal convection processes.

Improving methods for solving Navier-Stokes equations with noisy data.

Study reveals new scaling laws for turbulent flows affecting velocity and temperature.

Recent improvements in LBM enhance fluid simulation accuracy and usability.

This study examines how bubbles move when close to walls.

A look into cavitation, its causes, effects, and analysis.

Investigating the effects of Mach number on boundary layer stability.

Research sheds light on how turbulence interacts with free surfaces in water.

Study reveals how droplets behave on viscoelastic films in various conditions.

Examining how vortices interact and merge in unique fluid conditions.

This article examines how inertia and slip influence liquid film stability on fibres.

Research reveals complex interactions in the coalescence of liquid drops.

This article explores how active shakers organize liquid into zigzag patterns.

An overview of how less thick fluids interact with thicker ones.

This research reveals how vortices cluster in polariton quantum fluids under various conditions.

An overview of SPDEs and their real-world applications.

Exploring how fluid behavior impacts freeze out in high-energy nuclear collisions.

Study reveals the role of magnetic fields in binary star dynamics.

A new approach improves control systems analysis using set-valued analysis.

Exploring how cDFT enhances our understanding of fluid interactions and solvation.

An insight into Navier-Stokes-Cahn-Hilliard equations for fluid dynamics and phase separation.

A new method enhances accuracy in simulating fluid interactions.

Analyzing the behavior and stability of charged fluids in rotating astrophysical systems.

Cholla-MHD enhances astrophysical simulations using magnetohydrodynamics for detailed cosmic studies.

Examining how draining flows affect quantum vortices' stability and behavior.

A new approach to handle complex changing domains in numerical simulations.

A method to estimate blood flow parameters using advanced imaging data.