The optimized structures for the liquid-cooled microchannel heat sinks with different pin-fin
arrays were designed via using the topology optimization method for the better performance …

The phenomenon known as the Jeffrey-Hemal flow has become significantly important in
diverse engineering and biological fields due to its use in the transportation of nanofluids …

The thermal improvement in heat transfer investigation using a hybrid nanofluid model is
investigated. In a class of hybrid nanofluid, aluminum oxide, and titanium oxide …

The need for understanding peristaltic flow (PF) is growing frequently because of its
applicability in several scientific and technical domains, particularly in biological and …

This study investigates the effect of wall wettability on cavitation collapse based on a large-
density-ratio lattice Boltzmann method (LBM) pseudo-potential model. The validity and …

Monitoring bubble cavitations and bubble dynamics are essential in enhancing non-invasive
ultrasonic ablation methods like histotripsy that mechanically fractionates tissue into …

The present work focuses on the nonlinear dynamics of the synchronous oscillating multiple
bubbles in two typical spatial locations, namely, cuboid and rectangle arrangements. The …

A thermal lattice Boltzmann method is used to examine the heat flux characteristics of the
growth and collapse of wall-attached cavitation bubbles under different wall wettability and …

Encapsulated microbubbles are empty, micrometer-sized, spherical bubbles, typically
micron which are used in many applications as lipid-shells in soft tissues. Here, this paper …

This study analyzes the growth of a vapour bubble in a superheated nanofluid with variable
surface tension at the bubble interface. The governing equations describing the problem are …