Performance-evaluation criteria for enhanced heat-transfer surfaces

The concept of enhanced boiling and the advantages to be gained in cryogenic plant are discussed. Experimental results are reported in liquid nitrogen, argon, oxygen and R12. The saturated boiling heat transfer chracteristics of flat surfaces are significantly enhanced by plasma spraying of porous p

Two methods for assessing thermal performance were evaluated for four kinds of forced convective heat transfer augmentations. On method uses the first law of thermodynamics, i.e., the heat transfer improvement at (1) constant Reynolds number, (2) constant pressure loss, and (3) constant pumping powe

On the basis of the existing performance evaluation criteria analysis and four assumptions, a performance evaluation plot has been proposed in this paper. This plot takes the ratios of heat transfer enhancement and friction factor increase as its two coordinates. The quadrant of the coordinate where

The current state-of-the-art of commercial enhanced surfaces for thin film evaporation and condensation on vertical tubes is exemplified by fluted tubes having overall heat-transfer coefficients of 1300 to 2000 Btu/hr ft 2 `F at atmospheric pressure . Experimental surfaces have been tested which gav