Latest Articles for Chemical Engineering

Learn how non-Brownian suspensions behave under shear stress.

Examining how water density changes near surfaces that repel it.

SimulKnock optimizes microbial design and fermentation processes for efficient chemical production.

Research reveals how nanoporous tantalum performs under stress and its applications.

This study models the drying of slurry droplets with solid particles.

Exploring how droplet coalescence impacts various natural and industrial processes.

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

This study reveals how microbial cooperation enhances n-caprylate production efficiency.

Introducing a method to improve Bayesian analysis efficiency in complex systems.

Researchers investigate quaternary hydrides for potential room-temperature superconductivity.

This research models microgel behavior under varying temperatures and concentrations.

Examining the behavior and applications of carbon black dispersions.

Microbial methods offer cleaner, efficient routes for everyday chemical production.

Exploring neural networks for improved control in distillation columns.

GLAD enhances graph generation through a discrete latent space and diffusion bridges.

Surfactants significantly influence the breakup process of liquid threads into droplets.

A look at the significance and application of ADR equations in science.

Research uncovers links between shapes of porous materials and their chemical reactions.

A theoretical approach enhances our understanding of colloidal suspensions under shear flow.

A tool for accurate simulation of two-phase liquid interactions.

A look into improving vapor-liquid equilibrium modeling through experimental design.

Research reveals how palladium nanocrystals adapt to strain during phase transformations.

A new model helps predict chemical reactions using minimal data efficiently.

This article examines bubble formation and microlayer dynamics in varying pressure conditions.

Research reveals key links between atom movements and electron behavior in CsSnBr.

Explore the effects of surface tension on liquid behavior.

Study of how forces influence the movement of dense liquids.

This article explores how solid obstacles affect reactant diffusion in chemical reactions.

Research sheds light on worm-like micellar solutions and their applications in optics.

Innovative methods simplify analysis of polymer-solvent phase behavior.

Study reveals key insights into the Al-3wt%Nd alloy for electronics.

New AI model LDMol enhances molecule generation using text descriptions.

A new approach enhances the generation of molecules for drug response prediction.

Machine learning speeds up catalyst discovery and enhances reaction efficiency.

Discover how Physics-Informed Neural Networks improve process modeling in chemical engineering.

New findings on UPOs enhance their potential in various chemical processes.

A new method enhances understanding of molecular interactions using range separation.

New silver precursor enhances electron beam writing for nanoscale structures.

Examining how shape affects the movement of particles in unique fluid environments.

A look into how foams change and behave in various applications.