Latest Articles for Engineering Applications

This study presents state redistribution to enhance fluid flow simulations and manage complex geometries.

Exploring how aging and composition affect metallic glasses' behavior under stress.

This article discusses reducing skin friction drag using opposition control in turbulent flows.

Exploring the potential of Physics-Informed Neural Networks in complex problems.

Examining coherent structures and methods in turbulent pipe flow research.

This paper examines how different disturbances affect flame behavior in Rayleigh-Taylor instability.

New methods improve wave modeling accuracy and applications in various fields.

Explore the behavior and implications of anisotropic elastic laminates in engineering.

Cache blocking enhances computational efficiency in fluid dynamics simulations.

Explore the key aspects of turbulent flow and its impact on engineering designs.

Exploring unique solutions for charged gases influenced by electromagnetic fields.

Explore methods for detecting issues in fluid simulations.

A study on improving heat retention through effective insulation design.

An overview of Distributionally Robust Model Predictive Control in uncertain environments.

A new approach simplifies the study of fluid transport properties using atomic vibrations.

Exploring stability and segregation in confined granular mixtures.

This research examines how fluid flow transitions from calm to chaotic states.

Research reveals key similarities and differences in turbulence across varied flow scales.

New methods improve the accuracy of matrix sign function computations.

A concise overview of fluid motion and its critical principles.

Study reveals insights on how fluids move through porous materials.

A study on the behavior of solutions in elliptic equations.

New methods enhance predictions of fluid behavior in complex conditions.

This study investigates the role of circulation in turbulent fluid dynamics.

A study on modeling fluid movement in membranes considering inertial effects.

Exploring the capabilities and applications of quantum sensors in measurement.

Investigating the effects of Mach number on boundary layer stability.

Assessing uncertainty in neural networks for improved scientific predictions.

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

A new method simplifies modeling complex systems while preserving essential features.

Research is paving the way for MAB phases with unique properties for advanced applications.

This study examines the influence of viscosity on Faraday waves in confined liquids.

Explore enhanced stability and accuracy in solving hyperbolic differential equations.

A detailed look into how vortices behave in fluid dynamics.

New methods improve efficiency and accuracy in complex simulations with uncertainty.

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

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

This article presents advanced methods for analyzing fluid dynamics and heat transfer in complex shapes.

Examining how solitary waves maintain their form under slight disturbances.

Research highlights innovative techniques for optimizing heat transfer efficiency.