Experiments and Nonequilibrium Analysis of Pipe Blowdown

Abstract

Phase equilibrium blowdown models are not valid for geometries having small characteristic lengths (volume-to-break-area ratios). For such geometries, the two-phase expansion is too rapid to permit adequate heat and mass transfer between liquid and vapor to maintain phase equilibrium. The two-phase expansions observed during the present pipe blowdown experiments with dichlorodifluoromethane (R-12) were found to exhibit pronounced nonequilibrium behavior. Decompression transients were characterized by a rapid drop in pressure from the initial value to levels well below the initial saturation pressure. The pressure recovery caused by delayed growth of the vapor in superheated liquid leveled off to pressure plateaus well below the initial saturation pressure. Long-term blowdown transients were not affected by the initial pressure level, but initial temperature and pipe geometry were observed to have a pronounced influence. Higher initial temperatures resulted in higher pressure plateaus and shorter b...