Latest Articles for Fluid Dynamics

This study examines the behavior of large sprays in swirling air flows.

Exploring interactions between bubbles and droplets in strongly coupled dusty plasma.

Analyzing the stability of pulse solutions in the Swift-Hohenberg equation.

Studying turbulent jets enhances fluid behavior understanding for engineering applications.

Researchers use LSTM models to study droplet dynamics and energy distribution.

New model improves gas flow simulations in complex conditions.

A theoretical approach enhances our understanding of colloidal suspensions under shear flow.

This study enhances fluid simulations using a generative adversarial network within multigrid methods.

This article discusses using deep learning to predict airflow over airplane wings.

Introducing an innovative method for accurate magnetohydrodynamics simulations.

This study investigates how flexible materials improve movement in fluid dynamics.

This study focuses on how initial setups affect turbulent mixing in fluids.

A look at kinetic theory and how particles behave in different states of matter.

A new approach enhances turbulent flow simulations using machine learning techniques.

Exploring how temperature affects the Sun's differential rotation.

Study the movements of fluids influenced by temperature differences in vertical settings.

Exploring how machine learning enhances turbulence modeling for better predictions.

A tool for accurate simulation of two-phase liquid interactions.

Study reveals how temperature differences affect fluid behavior in vertical channels.

New methods improve control of turbulent separation bubbles for better vehicle efficiency.

An overview of ocean movements and their impact on marine environments.

An overview of Schrodinger symmetry and its significance in various fields of physics.

Explore how active scalar equations shape our understanding of fluid behavior.

Examining fluid behavior in high-energy nuclear physics through transport coefficients.

This article discusses numerical methods for solving the fractional Korteweg-de Vries equation.

Study reveals how spinal canal shape influences cerebrospinal fluid movement and behavior.

Acoustic manipulation holds promise for medical and engineering applications.

A look at how fluids flow through elastic tubes and its importance.

New model combines wavelet transforms and machine learning for better turbulent flow predictions.

Research uncovers how cavitation bubbles react to pressure changes in liquids.

Research reveals how changing conditions affects particle flow in suspensions.

SINDy-RL improves efficiency and interpretability in control systems using sparse dictionary learning.

A deep dive into the significance of vortex sheets in fluid flows.

A new method enhances SPH performance by optimizing kernel usage.

Innovative approaches to manage interactions in fluid flows for better outcomes.

This article explores bacterial movement in various fluid environments.

A look into the behaviors and applications of self-similar shock waves.

A method to reconstruct shapes of obstacles concealed in fluids through boundary measurements.

Research sheds light on quark-gluon plasma behavior in heavy ion collisions using scalar fields.

This article examines the behavior of chiral particles in turbulent environments.