Latest Articles for Fluid Dynamics

A study of fluid behavior under extreme conditions using simplified numerical methods.

A look at how the Euler-Poisson system behaves under critical conditions.

Research explains a new approach to producing Olympic gels using DNA technology.

Examining how noise influences fluid behavior through Lévy areas and Wong-Zakai anomalies.

New methods improve simulations of liquid behaviors on surfaces using PFEM.

A look into the factors influencing solar plasma behavior and its effects.

This study examines how rotation and magnetic fields affect heat movement in fluids.

New methods improve accuracy in studying multiphase flows and phase changes.

New method enhances fluid modeling in magnetohydrodynamics, ensuring physical accuracy.

A new framework enhances learning and predictions in chaotic environments.

This study examines how PCA reveals transitions between dispersive and dissipative systems.

Exploring turbulent flows and their impact on various natural and industrial processes.

New methods enhance predictions of complex systems using data-driven reduced-order models.

Study of fluid dynamics over obstacles enhances knowledge in various fields.

Examining methods used to simulate how solids move through fluids across various fields.

Exploring how droplet coalescence impacts various natural and industrial processes.

New cone-ray model enhances accuracy in flow density visualization.

A new method improves simulations of two-phase flows with mass and heat transfer.

A new approach combines machine learning with fluid dynamics for enhanced simulations.

This article examines how particle density affects movement in turbulent flows.

New methods improve stability and accuracy in solving complex equations.

This article discusses how MBDRL optimizes flow control with efficiency and reduced costs.

Exploring the patterns and stability of water waves through mathematical models.

Exploring how AI improves the study of fluid motion and simulations.

This article discusses new methods for accurately capturing shocks in fluid dynamics.

A look into the dynamics of merging Bose-Einstein condensates and their implications.

Examining how point vortices interact and evolve in fluid dynamics.

Exploring the role of Bayesian Neural Networks in turbulent flow prediction.

Explore the fascinating behavior of bubbles in viscous fluids.

BSS method improves fluid flow simulations by accurately capturing shocks and turbulence.

Exploring the impact of sound waves on fluid movement for diverse applications.

This article reviews methods for solving inverse problems in fluid dynamics.

A look into how vortex filaments affect fluid behavior and severe weather.

Exploring the behavior and applications of self-lubricating multicomponent drops.

This study examines fluid behavior in porous materials using a two-scale approach.

Innovative simulation technique enhances understanding of droplets in complex flow environments.

Methods for improving solution processes near complex mathematical singularities.

New models improve predictions for complex granular flows in various settings.

A look at new methods for analyzing gas flows, focusing on non-ideal gases.

New sensors provide precise pressure measurement in microfluidic systems.