Abstract
Hundreds of grams of calcined cerium dioxide (CeO2) microspheres were produced using the internal gelation process with a focus on 75–150µm and <75µm diameter sizes. To achieve these small sizes, a modified internal gelation system was employed, which utilized a two-fluid nozzle, two static mixers for turbulent flow, and 2-ethyl-1-hexanol as the medium for gel formation at 333–338K. This effort generated over 400g of 75–150µm and 300g of <75µm CeO2 microspheres. The typical product yields for the 75–150µm and <75µm microspheres that were collected and processed were 72 and 99%, respectively, with a typical throughput of 66–73g of CeO2 microspheres per test, which could generate a maximum of 78.6g of CeO2. The higher yield of very small cerium spheres led to challenges and modifications, which are discussed in detail. As expected, when the <75µm microspheres were targeted, losses to the system increased significantly.
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