A model was developed to calculate the particle size distribution following the release of pressurised supercritical CO2. The model combines several sub-models for the different stages of jet break-up and specifically addresses the possible formation of solid particles, which is important for CO2 releases. The model was validated using experimental data available for CO2 and for the release of other pressurised, superheated liquids. The model is able to describe the droplet formation process with sufficient accuracy. The values obtained for droplet diameter are mostly within 30% of the experimental data. Unfortunately, very little experimental information on the formation of solid CO2 is available. However, the SMD calculated for CO2 particles corresponds well with one available set of experimental data
C.E.C. Dam, M.P.N. Spruijt, A. Necci, V. Cozzani (2012). Assessment of particle size distribution in CO2 accidental releases. JOURNAL OF LOSS PREVENTION IN THE PROCESS INDUSTRIES, 25, 254-262 [10.1016/j.jlp.2011.10.009].
Assessment of particle size distribution in CO2 accidental releases
NECCI, AMOS;COZZANI, VALERIO
2012
Abstract
A model was developed to calculate the particle size distribution following the release of pressurised supercritical CO2. The model combines several sub-models for the different stages of jet break-up and specifically addresses the possible formation of solid particles, which is important for CO2 releases. The model was validated using experimental data available for CO2 and for the release of other pressurised, superheated liquids. The model is able to describe the droplet formation process with sufficient accuracy. The values obtained for droplet diameter are mostly within 30% of the experimental data. Unfortunately, very little experimental information on the formation of solid CO2 is available. However, the SMD calculated for CO2 particles corresponds well with one available set of experimental dataI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
