Latest Articles for Engineering Applications

This study explores how particles influence fluid movement in turbulent conditions.

This research enhances RFA simulations by applying parallel computing techniques to reduce execution time.

Combining neural and diffusion models improves accuracy in turbulence predictions.

A look at how intruders affect granular materials and their movement.

A novel approach unites solid and fluid dynamics through particle flow maps.

Exploring the relationship between fluid flow and surface properties.

Introducing L/SES, a method to analyze turbulence efficiently and accurately.

Exploring Krein systems and their impact on various mathematical fields.

A novel compressor boosts GMRES performance in solving linear equations.

Analyzing factors affecting flow stability in porous channels.

Exploring new methods to improve optimization algorithms for faster decision-making.

Innovative numerical strategies improve understanding of water flows in diverse environments.

Learn how RNNs improve stability in control systems.

This article examines gas flow behavior near wedge shapes at supersonic speeds.

An overview of the Oseen eigenvalue problem and its significance in fluid dynamics.

Examining how heat affects the behavior of shape memory alloys during indentation testing.

Exploring numerical solutions for differential equations through spline functions and integral techniques.

A new method enhances numerical accuracy in convection-diffusion equations for fluid dynamics.

This study examines how temperature and angle impact mixed convective flow.

Learn how dual graph approaches enhance data analysis and predictions.

Discover the unique qualities of viscoelastic fluids and their real-world applications.

A look at the significance and measurement of two-phase flows in various fields.

Researchers enhance water droplet simulations for realism and practical applications.

Learn about the swirling motion and heat transfer in ring-shaped fluids.

A look at the science behind turbulent fluid flow in two dimensions.

Discover how local structures in Cu-Ti alloys shape material properties.

Discover how polymers influence drag in Taylor-Couette turbulence.

Explore the unique properties and applications of banded matrices in mathematics.

Discover the fascinating world of coupled oscillators and their surprising behaviors.

New methods improve fluid motion analysis, ensuring reliability and efficiency.

Learn how high-pass filtering reveals energy distributions in turbulent flows.

Discover how new methods in EIT enable faster and clearer imaging.

Learn how Hamilton-Jacobi equations impact systems and measure chaos.

Learn how passive LTV systems manage energy efficiently.

Discover the fascinating dynamics of rotor-stator flows and their real-world applications.

A look into how fluids behave in two dimensions and what it means for science.

Discover how suspensions blend solid particles within liquids and their practical uses.

Discover the essential dynamics of Couette flow and its importance in fluid behavior.