Latest Articles for Fluid Dynamics

This research examines the shift from strong to weak symmetry in fluids.

Study reveals how cavity angles affect noise levels from airflow.

This article examines the measures and integral curves of specific vector fields.

New method improves speed and accuracy in gas flow simulations.

Explore the importance of multi-component flow modeling in various applications.

This study examines how swimming foils interact with water for better performance.

A look at non-linear behaviors and reduced-order models in aircraft design.

Study reveals the role of RWI in shaping protoplanetary disks.

A study on shape optimization and its implications in fluid dynamics.

Explore the intricacies of the dip-coating process and its significance in various industries.

Learn about the challenges and solutions related to thermoacoustic instability in rocket engines.

Exploring the formation and growth patterns of droplets in condensation.

This article presents a novel approach for solving nonconservative hyperbolic systems accurately.

A study on how droplets behave in buoyant emulsions without merging.

New neural network models improve predictions of wave behaviors.

Research reveals patterns in hole sizes within crystalline structures of hard spheres.

Research on shark intestines reveals innovative models for controlling fluid flow.

This study examines roll waves in thin water layers flowing down slopes.

Study reveals how substances move in turbulent boundary layers.

Scientists unveil a new equation for turbulence in quantum systems.

Study reveals unique solutions in fluid dynamics influenced by random fluctuations.

A novel method improves fluid behavior modeling using ten-moment equations.

A deep dive into the significance of bounded solutions in elliptic equations.

This article explores methods for modeling interactions of charged particles in plasmas.

A new method improves fluid simulations with simpler grids and enhanced accuracy.

Active fluids and triangular inclusions enhance microfluidic applications.

Examining the process and effects of hydraulic fracturing on natural resources.

Study reveals how material layers affect fracture behavior in fluid-filled environments.

This article discusses predicting weakly turbulent systems using limited observations and advanced methods.

Examining how non-Newtonian fluids behave during chemical reactions.

Explore how atmospheric pressure influences the behavior of ocean waves.

Research reveals unique ion behavior in tapered nanoslits under electric fields.

A look at the unique properties and potential applications of quantum droplets.

Exploring the behavior and patterns of wave turbulence in various systems.

Examining how randomness affects passive quantities in fluid dynamics and its practical implications.

A simpler and more accurate approach to simulate two-phase fluid flows.

Research reveals effects of higher-order gradients on spin polarization in high-energy environments.

Exploring the relationship between particle behavior and fluid dynamics.

Introducing Closed-Loop Diffusion Control for efficient management of complex physical systems.

Exploring continuum mechanics to understand materials on curved surfaces.