Latest Articles for Navier-Stokes Equations

A study on improving numerical methods for solving fluid flow problems.

A study on weak solutions for compressible non-Newtonian fluids and their behaviors.

Improving methods for solving Navier-Stokes equations with noisy data.

An overview of SPDEs and their real-world applications.

An insight into Navier-Stokes-Cahn-Hilliard equations for fluid dynamics and phase separation.

A new method enhances accuracy in simulating fluid interactions.

Examining the movement of solid objects in electrically conducting fluids.

A method improves solutions for Navier-Stokes equations in fluid mechanics.

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

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

A new method enhances solutions for Navier-Stokes equations in fluid dynamics.

Researching how fluids and structures influence each other, especially under random conditions.

An overview of how scientists study and model turbulence in fluids.

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

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

Discover how fluid simulation creates realistic animations of liquids in visual media.

Analyzing turbulence through numerical methods for improved accuracy and insights.

An overview of the links between Navier-Stokes equations and quantum gases.

New meshless methods offer improved simulations for fluid movement in porous materials.

Analyzing solutions to Navier-Stokes equations in steady flows under suction.

This study assesses GPU benefits for CFD simulations in terms of speed, power, and costs.

New methods improve the simulation of arterial blood flow using artificial intelligence.

Combining neural networks and traditional techniques to predict fluid behavior.

Combining quantum and classical methods to tackle fluid motion equations.

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

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

An overview of fluid dynamics, covering compressibility, viscosity, and heat transfer.

A study on fluid movement between two disks reveals unique solution behaviors.

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

Analyzing pressure correction methods for fluid dynamics error management in simulations.

Study reveals complex behavior in counter-rotating Taylor-Couette flow through period doubling.

New method improves efficiency in fluid simulations, enhancing prediction accuracy.

Examining gas dynamics in less dense conditions for better predictions and applications.

A deep dive into how a ball behaves in various fluids.

A look at two methods for improving predictions in various fields.

Researchers use MeshGraphNets to improve fluid dynamics simulations efficiently.

A new approach simulates turbulent and rarefied gas flows together for better predictions.

Enhancing fluid flow control with innovative numerical techniques and robust approaches.

A new approach enhances predictions of dynamic systems by incorporating memory.

A study on fluid behavior in channels and its implications.