Heat transfer intensity at forced flow boiling of cryogenic liquids in tubes

Forced flow boiling heat transfer to nitrogen and helium in a channel rotating around a parallel axis is investigated. It is found that the heat transfer coefficient and critical heat flux vary greatly along the channel perimeter. Generalized equations have been suggested on the basis of experimenta

## Abstract A series of visual experiments were conducted for liquid– vapor two‐phase flow in hairpin tubes, and it was observed that most of the nucleation sites were located at the outer tube wall of the bend. From the simulation, it was concluded that the uneven velocity distribution in the bend

The correlation between heat transfer and electric phenomena has been known for 45 years. 1 In 1947 Kronig and Schwarz 2 presented a dimensionless relationship for heat transfer improvement due to the presence of electric field. Later Ahsmann and Kronig 3,4 adapted this relation to liquids in connex

## Abstract The flow boiling heat transfer performance in horizontal metal‐foam tubes is numerically investigated based on the flow pattern map retrieved from experimental investigations. The flow pattern and velocity profile are generally governed by vapour quality and mass flow rate of the fluid.