| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 239239 | Powder Technology | 2008 | 7 Pages |
In chemical engineering processes in which crystal is produced, the strength of the substances plays a key role. In this study, micro-level measurements of the fracture strength of aggregated crystal were performed under various operating conditions of an MSMPR crystallizer. The attrition and the fragmentation mechanisms were considered from the fracture strength, the fracture energy and impact velocity calculated from micro-hardness properties. The results showed that these properties had different values between aggregated and non-aggregated crystals. Inclusion of mother liquor caused by aggregation was accounted for the decline of the crystal strength. According to these parameters based on microhardness, there was a possibility that the collision between aggregated crystal and impeller caused not only attrition but also fragmentation.
Graphical abstractThe attrition and the fragmentation mechanisms in MSMPR crystallizer were considered from the impact velocity calculated from micro-hardness properties. The figure shows that some values of impact velocity of the final fractures are below the impeller speed. This result means that there was a possibility that the collision between the aggregated crystal and impeller caused not only attrition but also fragmentation..Figure optionsDownload full-size imageDownload as PowerPoint slide
