Latest Articles for Fluid Dynamics

A study of rotating fluid bodies and their stability characteristics.

New insights into active turbulence reveal self-constraint mechanisms in biological materials.

Introducing Vandermonde Neural Operator for more efficient PDE simulations with irregular data.

An overview of viscoelastic jets and their behavior during droplet formation.

Research explores unique solutions in fluid dynamics involving droplets and gases.

A new method enhances simulations of two-phase fluid interactions for industrial applications.

Learn how wall turbulence impacts fluid movement near surfaces.

Introducing the X-HDG method for solving complex convection-diffusion equations.

Analyze the sources and solutions to jet noise in aviation.

A look at how the renormalization group transforms our understanding of complex systems.

New methods enhance solving fluid flow equations using real-world data.

A look at the Whitham-Green-Naghdi system for predicting shallow water waves.

RANS-PINN combines machine learning and physics for faster turbulent flow predictions.

This study examines how particles move within turbulent canopy flows.

Examining how periodic waves behave and maintain stability under various conditions.

New method combines machine learning with turbulence modeling for improved simulations.

New methods enhance simulation accuracy and efficiency using GPUs.

Exploring active matter's self-propulsion and chaotic movement patterns.

A fresh approach to nonlinear initial boundary value problems in fluid dynamics.

Dive into the fundamentals of gas flow and its challenges.

Investigating MHD turbulence reveals insights into star formation and cosmic phenomena.

A study on how microscopic particle behavior relates to fluid behavior.

This study examines wave dynamics in the modified Korteweg-de Vries equation with nonzero backgrounds.

An overview of shallow water moment equations and their significance in fluid dynamics.

A detailed look into turbulence behavior in complex plasmas and its significance.

Researchers analyze fluid behavior theories at extreme speeds to enhance stability understanding.

A fresh approach improves accuracy in fluid dynamics modeling.

A new method to study fiber behavior in fluid flow for ecology and engineering.

This study examines CO2's behavior in water and its implications for the environment.

Examining granular materials' flow properties and their importance across various industries.

A look into the behavior and applications of charged particle fluids.

A study on how power-law fluids behave in trapezoidal cavities under different conditions.

Examining shock reflection types in short wedge aerodynamics.

Evaluating ANN and GEP for accurate wall pressure predictions in engineering structures.

New methods enhance accuracy in simulating fluid dynamics, especially at low speeds.

A study on how electric fields influence polystyrene particle behavior in fluids.

Droplets of volatile liquids move unpredictably on heated surfaces due to temperature effects.

Study reveals how temperature differences influence particle behavior in turbulent air flows.

This article examines the Blasius boundary layer and its transition to turbulence.

New methods improve understanding of gas-liquid slug flow in pipelines.