Experimental investigation of forced convective condensation heat transfer of hydrocarbon refrigerant in a helical tube

摘要

Highlights?A new experimental facility was designed to directly measure the wall temperature along a helical tube.?The effect of mass flux, vapor quality, heat flux on the two-phase heat transfer or frictional pressure drop were analyzed.?Several prediction correlations were used to compare the experiment results.AbstractIn this paper, the characteristics of two-phase heat transfer and frictional pressure drop for hydrocarbon refrigerant propane condensation in a helical tube were experimentally investigated. A new experimental facility was designed to directly measure the wall temperature along a helical tube with the hydraulic diameter of 10?mm. The experimental conditions were set as: mass flux from 200 to 400?kg/(m2·s), heat flux from 1.4 to 9.6?kW/m2and saturated temperatures from ?40 to 27?°C. Also, the effects of mass flux and vapor quality on heat transfer coefficient and frictional pressure drop were studied. Compared with the experimental data, it showed that Shah correlation could well predict heat transfer coefficients within a mean deviation of ±20%, and Friedel correlation and Müller-Steinhagen & Heck correlation both well predicted frictional pressure drop with a mean deviation less than ±20%. These results will provide important instructions for the tube-side design of spiral wound heat exchanger.]]>