This work deals with the use of a compartmental model to interpret the change of the performances of a draft-tube baffled (DTB) crystallizer due to progressive scaling. The examined case was the reaction -crystallization of sodium perborate tetrahydrate. First of all, a model based on both MSMPR and PFR compartments was developed. The model was then applied to evaluate the reduction of the flow rate of the circulation stream through the draft-tube due to progressive scaling, and to predict the relevant crystallizer performances. Finally, the possibility of estimating the scaling extent in the crystallizer from the crystal size distribution (CSD) measured along the run time was shown.
The effect of scaling on the performances of a DTB crystallizer by means of a compartmental simulation model / Stoller, Marco; Bravi, Marco; Chianese, Angelo. - In: CHEMICAL ENGINEERING RESEARCH & DESIGN. - ISSN 0263-8762. - STAMPA. - 83:2 A(2005), pp. 126-132. [10.1205/cherd.03384]
The effect of scaling on the performances of a DTB crystallizer by means of a compartmental simulation model
STOLLER, Marco;BRAVI, Marco;CHIANESE, Angelo
2005
Abstract
This work deals with the use of a compartmental model to interpret the change of the performances of a draft-tube baffled (DTB) crystallizer due to progressive scaling. The examined case was the reaction -crystallization of sodium perborate tetrahydrate. First of all, a model based on both MSMPR and PFR compartments was developed. The model was then applied to evaluate the reduction of the flow rate of the circulation stream through the draft-tube due to progressive scaling, and to predict the relevant crystallizer performances. Finally, the possibility of estimating the scaling extent in the crystallizer from the crystal size distribution (CSD) measured along the run time was shown.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
