论文信息 - Effect of Buoyancy on Heat Transfer in Supercritical Water Flow in a Horizontal Round Tube

Effect of Buoyancy on Heat Transfer in Supercritical Water Flow in a Horizontal Round Tube

Heat transfer to supercritical water and buoyancy/natural convection effects are becoming increasingly important areas of research due to current trends in nuclear reactor design and supercritical water oxidation facilities. A pilot-scale supercritical water oxidation loop was constructed at the University of British Columbia. For this work, the facility was used to study the relative importance of buoyancy effects on supercritical water flowing in a horizontal pipe. Local heat transfer coefficients at the top and bottom surfaces of the horizontal test section were systematically measured over a wide range of conditions at supercritical pressures between 23 to 27 MPa, uniform heat fluxes were up to 310 kW/m 2 , and the mass flux ranged from 330 to 1230 kg/m 2 s

[1] B. S. Petukhov,et al. TURBULENT FLOW AND HEAT TRANSFER IN HORIZONTAL TUBES WITH SUBSTANTIAL INFLUENCE OF THERMOGRAVITATIONAL FORCES , 1974 .

[2] T. Fujii,et al. Forced convective heat transfer to supercritical water flowing in tubes , 1972 .

[3] H. S. Swenson,et al. Heat Transfer to Supercritical Water in Smooth-Bore Tubes , 1965 .

[4] V. Razumovskiy,et al. Local heat transfer and hydraulic behavior in turbulent channel flow of water at supercritical pressure , 1990 .

[5] A. Ghajar,et al. Improved forced convective heat-transfer correlations for liquids in the near-critical region , 1986 .

[6] G. A. Adebiyi,et al. Experimental investigation of heat transfer to supercritical pressure carbon dioxide in a horizontal pipe , 1976 .

[7] A. F. Poli︠a︡kov,et al. Heat transfer in turbulent mixed convection , 1988 .