Measurement and prediction of pressure drop in two-phase micro-channel heat sinks

Experiments have been performed to investigate the heat transfer characteristics and pressure drop in the micro-channel heat sinks under constant heat flux conditions. The experiments are performed for the Reynolds number and heat flux in the ranges of 200-1000 and 1.80-5.40 kW/m 2 , respectively. T

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

This paper is the first of a two-part study concerning measurement and prediction of saturated flow boiling heat transfer in a water-cooled micro-channel heat sink. In this paper, new experimental results are discussed which provide new physical insight into the unique nature of flow boiling in narr

Two-

A dewce for studying hydrodynamics and heat transfer m hehum flow (hehum being m two-phase hquld, and supercrtbcal states) ts descrtbed Prehmmary data about pressure drop and heat transfer in two-phase hehum flow are presented. The tube used was about 0 45 mm I d and about I m long. The mass flow m

Alternative correlations of two-phase friction pressure drop and void fraction are explored for mini-channels based on the separated flow model and drift-flux model. By applying the artificial neural network, dominant parameters to correlate the two-phase friction multiplier and void fraction are pi