Latest Articles for Fluid Dynamics

A look into the unique behavior of rogue peakons in wave equations.

Research unveils complex behaviors of rotating fluids using holographic methods.

Study reveals how wing shape affects air flow and performance.

This study examines how solid particles behave in liquid flows within pipes.

Research reveals how droplets interact before merging with liquid surfaces.

This article investigates solution behavior of the Kuramoto-Sivashinsky equation from rough initial data.

Discover the benefits of the E-RSAV algorithm in optimization tasks.

New microfluidic device reduces stress on particles for better manipulation.

This article explores breakup frequency and its importance in various industries.

New research improves yield-stress fluids for versatile applications.

Research reveals complexities of polymer flow behaviors and practical impacts.

This paper examines variational principles applied to non-barotropic fluid behavior.

Research reveals how liquid types influence spreading on surfaces.

Examining the modified Camassa-Holm equation's properties in shallow water wave studies.

An overview of dense gas flows and their significance in various fields.

Research aims to enhance blood pump design by minimizing red blood cell damage.

This article explores the movement through networks and its implications.

An overview of regularity in fluid dynamics and the Stokes equations.

Examining how vortex cores influence heat movement in turbulent fluids.

A look into the movement of electrically conductive fluids under magnetic fields.

This article discusses the Hybrid-Variable method and its role in fluid dynamics.

Painlevé equations offer unique insights in mathematics and physics.

Learn how electrowetting enables manipulation of droplets on surfaces.

Charge differences in polymers affect droplet merging and coarsening dynamics.

Study reveals new insights into heat and mass movement in fluid mixtures.

Study investigates how Mercury's rotation affects its outer core fluid flow.

A comparison of two models for understanding viscoelastic fluid behavior.

Exploring global smooth solutions for quasilinear wave equations with short pulse initial data.

Examining how magnetic fields influence fluid movement and heat transfer.

The EBIT method offers a new approach to simulating multiphase flows effectively.

A new Cartesian grid-based approach for solving Hele-Shaw flow and Stefan problem.

Introducing a new method for accurate simulations of nematic liquid crystals.

An exploration of unique behaviors and interactions of quantum vortices in fluids.

Study reveals insights into liquid jets for improved applications in various industries.

A method using machine learning enhances turbulent flow simulations over extended periods.

Exploring the connection between turbulence and magnetic field generation in fluid systems.

Research reveals how particles organize themselves using vibrational forces in fluids.

New techniques enhance Eulerian SPH performance in fluid flow analysis.

Exploring the impact of higher-order kernels on fluid and solid simulations.

Rogue waves pose significant risks, causing concern in maritime and scientific fields.