Experimental Study of Natural Frost Formation over a Horizontal Tube with Annular Compact Fins Under Natural Convection

This paper presents experimental measurements of natural convection heat transfer and frost deposition over a horizontal fin-tube. Measurements are made for a fin-tube of diameter 25.4 mm, fin thickness 0.4 mm, fin center diameter 56 mm, and fin spacing 2 mm. For measurements the ambient air temperature and relative humidity are changed from 18 to 25 degrees C and from 35% to 55%, respectively. The tube surface temperature is changed from -5 to -9 degrees C, and super cooling degrees of 7.5 to 24.5 degrees C. Results include a visualization of frost deposition growth, frost accumulation rate, and heat transfer rate with respect to time for each experiment. The results show that cold air starts from the upper point and moves downward and frost deposition starts on the fin tips, and grows with time both radially and angularly. Frost growth thickness changes significantly from top to bottom, where the boundary layers of both thermal and concentration increase at the bottom of the fin-tube section without considerable separation. Frost growth only takes place on the fin's tip and it blocks the heat and mass transfer from the fin surfaces and the tube base which reduces convection and frost growth considerably. (C) 2011 Wiley Periodicals, Inc.