Latest Articles for Fluid Dynamics

This study examines how temperature-dependent fluid properties affect turbulent convection behavior.

New slip-wall models improve accuracy and efficiency in simulating turbulent flows.

Research examines how local flow conditions affect turbulence behavior.

This article examines how particles influence fluid behavior near surfaces.

Study reveals how impacts create craters and release gases underwater.

New techniques improve precision in modeling multi-fluid flows for various industries.

A computer program simulating fluid movement in porous materials for various research fields.

Research explores drag reduction in cylinder flow with active control methods and machine learning.

This article highlights key methods improving turbomachinery design through computer simulations.

Research enhances spin coating techniques for complex geometries.

RKGC improves accuracy and consistency in fluid simulations using SPH.

An overview of bulk viscosity's impact on plasmas, focusing on diatomic ions.

Exploring the effects of moving objects in cosmic fluids and their gravitational wave emissions.

A new method for modeling obstacles in conservation laws without losing realism.

Exploring the role of symmetry in astrophysics and its impact on stability.

A look into the behavior of fluids and vortex interactions.

Researchers combine data techniques to model complex systems effectively.

This article examines nonlinear excitations in droplet environments, focusing on stability and dynamics.

Discover the behavior and interaction of solitons in waveguides.

Study reveals how textured surfaces affect fluid movement and flow dynamics.

A modified Tolman VII solution includes charge and cosmological constant for cosmic insights.

A new method efficiently handles shock formations in Burgers' equation.

Combining quantum and classical methods to tackle fluid motion equations.

Exploring how rotation and magnetic fields influence fluid mixing and heat transfer.

Exploring how deformable porous media interact with fluids in various conditions.

Scientists observe vortex dynamics in Bose gas under rapid interaction changes.

An overview of two-phase flows and the numerical models that study them.

A standardized platform for testing learning algorithms in boundary control of partial differential equations.

A new method predicts optimal mesh spacing for fluid simulations, enhancing efficiency.

Explore the Navier-Stokes equations and their role in fluid behavior.

This article discusses the role of GPUs in simulating complex multiphase flows.

A new method enhances accuracy in simulating water wave behavior for offshore engineering.

This study introduces tensor-train networks to enhance flow simulation accuracy and efficiency.

Explore the fascinating behavior of liquid drops in various fluid environments.

A look into the behavior of liquid filaments during pinch-off in polymers.

Research reveals how varying pore sizes affect fluid movement in materials.

We develop methods for refining models using noisy and indirect observations.

A look into shallow water systems and their importance in marine science.

A new neural network approach improves accuracy in hyperbolic conservation laws.

Researchers study unexpected behaviors in fluid flows through Euler equations and singularities.