Application of flexibility model in modeling of flow boiling heat transfer

## R410A a b s t r a c t Experiments of flow boiling heat transfer were conducted in four horizontal flattened smooth copper tubes of two different heights of 2 and 3 mm. The equivalent diameters of the flattened tubes are 8.6, 7.17, 6.25, and 5.3 mm. The working fluids were R22 and R410A. The tes

## 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.

This paper presents application of computational modeling to four problems of industrial importance. The problems include ventilation and fire spread in highway tunnels, chemical vapor infiltration for manufacturing fiber-reinforced composites, refining hearths used for elimination of impurities in

This paper is Part II of a two-part study devoted to measurement and prediction of the saturated flow boiling heat transfer coefficient in water-cooled micro-channel heat sinks. Part I discussed the experimental findings from the study, and identified unique aspects of flow boiling in micro-channels