Latest Articles for Engineering Applications

A look at how random forces affect fluid flows in two dimensions.

New method improves visibility of hidden features on 3D surfaces.

New modeling approach enhances predictions in particle-laden fluid dynamics.

This study examines how hydrated materials interact with soft bases for engineering applications.

Examining how a sphere behaves when entering a calm body of liquid.

Enhancing confidence intervals for DeepONet using split conformal prediction methods.

This study analyzes heat transfer and fluid movement in porous materials using a finite element model.

A look into heat transfer and fluid behavior in heated pipes.

Exploring the effects of randomness in complex systems over time.

Analyzing how internal stresses affect the shape change of cylindrical materials.

Exploring efficient solutions for complex linear systems using multigrid techniques.

This study examines the behavior of large sprays in swirling air flows.

New models improve aerial robots' handling of flexible cables.

Learn how direct-search methods help find optimal solutions effectively.

Learn how PINNs combine machine learning and physics to solve complex problems.

Study reveals how temperature differences affect fluid behavior in vertical channels.

This study examines how active environments affect particle transport and system behavior.

MICROSIM software simplifies materials science simulations for researchers and engineers.

Innovative approaches to manage interactions in fluid flows for better outcomes.

Researchers are advancing methods to solve large, sparse linear systems effectively.

Study of MHD flows and their behavior in Hele-Shaw setups.

A study presents wavelet-based resolvent analysis for improved understanding of turbulent fluid dynamics.

A new method enhances the study of turbulent flows through localized analysis.

A look at how fluids behave under small changes in porous media and Stokes systems.

Learn how reduced order models improve analysis and predictions of complex systems.

New methods improve fluid behavior simulation for various applications.

This article examines methods to estimate unknown heat sources from temperature data.

A method for stabilizing the Kuramoto-Sivashinsky equation under limited measurement conditions.

New methods enhance predictions for composite materials in various industries.

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

Exploring bi-reachability challenges in Petri nets enhanced with data values.

New methods improve analysis of polymer crystallization processes in noisy environments.

New methods for approximating complex functions from limited data are emerging.

An overview of finite-volume schemes and their applications in numerical analysis.

New methods improve accuracy in simulating particles in fluid dynamics.

Exploring the complexities of turbulent flow close to surfaces.

A study on turbulent fluid behavior using network analysis of VGT.

New methods improve prediction of wave behavior in various fields.

This article examines fluid behavior around long shapes under varied conditions.

Study reveals insights into materials with inclusions affecting heat and electricity flow.