Abstract Two‐dimensional (2D) metal–organic framework (MOF) membranes are
considered potential gas separation membranes of the next generation due to their …

Boiling is an efficient heat transfer mode with significant potential for thermal management in
high-power electronic equipment. However, a comprehensive understanding of the boiling …

Micro-and nanostructured surfaces offer the potential to enhance two-phase heat transfer.
However, the mechanisms behind these enhancements are not well-understood due to …

A significant challenge associated with photoelectrochemical water splitting is the reduction
of the anode photocurrent due to bubble adhesion. To achieve in situ observation of bubble …

This work consists of an experimental study of the microscale physical phenomena
occurring during the growth of a single bubble attached to the heater at nucleate boiling. The …

The phase change model has recently attracted attention for use in flow-boiling numerical
simulation research. Comparison and evaluation of the calculation accuracies and resource …

As mechanical properties of quenched pieces are determined by the thermal evolution
undergone during the heat treatment process, an adequate modeling is crucial to accurately …

The present study reports the mutual effect of heater surface wettability, roughness and bulk
liquid velocity on the bubble dynamics and departure in nucleate boiling. Boiling …

For the modelling of nucleate boiling heat transfer, the bubble growth dynamics is of key
importance. The study reported in this paper focuses on a qualitative assessment of the role …

To clear the effects of the hydrodynamic interactions among neighboring vapor bubbles on
the saturated pool boiling heat transfer, artificial nucleation sites with several cavity …