Experimental study on heat transfer characteristics of R134a flow boiling in “Ω”-shaped grooved tube with different flow directions

Abstract: To study the heat transfer enhancement of flow boiling in "Ω"-shaped grooved tube, an experimental investigation with refrigerant R134a as working fluid was conducted. The experiments were performed at different flow directions with mass flux of 10-30kg/(m 2 •s) and heat flux of 3-10kW/m 2 , respectively. The effects of vapor quality, heat flux and mass flux in horizontal, upward and downward flow were compared and analyzed. The comparative study with smooth tube showed significant enhancement of 1.5-3.3 times… Show more

“…Thisdifference of behaviour may be due to the different phenomenology between micro and macro-channel two-phase flows. In macro-scale[15,17,19,22], the two-phase flow is mainly annular or stratified while in micro-scale slug flows were observed[16,20]. The effect of inclination may be interpreted in terms of partial dry-out of the upper part of the tube in macro-scale.…”

Effect of inclination on heat transfer coefficient during flow boiling in a mini-channel

“…Thisdifference of behaviour may be due to the different phenomenology between micro and macro-channel two-phase flows. In macro-scale[15,17,19,22], the two-phase flow is mainly annular or stratified while in micro-scale slug flows were observed[16,20]. The effect of inclination may be interpreted in terms of partial dry-out of the upper part of the tube in macro-scale.…”

Effect of inclination on heat transfer coefficient during flow boiling in a mini-channel

CFD study of heat transfer augmentation and fluid flow characteristics of turbulent flow inside helically grooved tubes

Global analysis and development of a predictive tool of the effect of tube inclination on two-phase heat transfer: Boiling, condensation and heated gas-liquid flows