论文信息 - STUDY OF FLOW BOILING HEAT TRANSFER IN A TUBE WITH AXIAL MICROGROOVES

STUDY OF FLOW BOILING HEAT TRANSFER IN A TUBE WITH AXIAL MICROGROOVES

Experiments of upward flow boiling heat transfer with water in a vertical smooth tube and a tube with axial microgrooves were conducted. Both of the tested tubes have a length of 2.5 m, an inner diameter of 15 mm, and an outlet diameter of 19 mm. The tube with axial microgrooves has many micro rectangle grooves in its inner wall along the axial direction. The grooves have a depth of 0.5 mm and a width of 0.3 mm. The tests were performed at an absolute pressure of 6 bar. The heat flux ranged from 0 to 550 kW/m2 and the mass flux was selected at 410, 610, and 810 kg/m2 s. By comparison, flow boiling heat transfer coefficients in the enhanced tube are 1.6 to 2.7-fold that in the smooth tube, while the frictional pressure drop in the enhanced tube is slightly greater than that in the smooth tube. The augmentation of flow boiling heat transfer in the tube with axial microgrooves is apparent. Based on the experimental data, a correlation of flow boiling heat transfer is proposed for the enhanced tube. Finally, the mechanisms of heat transfer enhancement are analyzed.

L. Chen | Lixin Cheng, Tingkuan Chen

[1] P. Griffith,et al. THE ROLE OF SURFACE CONDITIONS IN NUCLEATE BOILING. Technical Report No. 14 , 1958 .

[2] S. J. Kline,et al. Describing Uncertainties in Single-Sample Experiments , 1953 .

[3] S. Hsieh,et al. An experimental study of flow boiling heat transfer in rib-roughened tube annuli , 1995 .

[4] Jay N. Zemel,et al. Liquid Transport In Micron And Submicron Channels , 1989, Optics & Photonics.

[5] Y. Hsu,et al. AN ANALYTICAL AND EXPERIMENTAL STUDY OF THE THERMAL BOUNDARY LAYER AND EBULLITION CYCLE IN NUCLEATE BOILING , 1961 .

[6] B. S. Petukhov. Heat Transfer and Friction in Turbulent Pipe Flow with Variable Physical Properties , 1970 .

[7] J. Zemel,et al. Liquid transport in micron and submicron channels , 1990 .

[8] Jean-Raymond Abrial,et al. On B , 1998, B.

[9] S. Bankoff. Ebullition From Solid Surfaces in the Absence of a Pre-Existing Gaseous Phase , 1957, Journal of Fluids Engineering.

[10] S. Bankoff. Entrapment of gas in the spreading of a liquid over a rough surface , 1958 .

[11] R. Pease,et al. High-performance heat sinking for VLSI , 1981, IEEE Electron Device Letters.

[12] Y. Hsu. On the Size Range of Active Nucleation Cavities on a Heating Surface , 1962 .

[13] Arthur E. Bergles,et al. Heat Transfer Enhancement—The Encouragement and Accommodation of High Heat Fluxes , 1997 .