Litcius/Paper detail

Analysis of Nonideal Shape Evolution during Potash Alum Crystallization Using Microcomputed Tomography and Three-Dimensional Image Analysis

Simon Schiele, Felix Antoni, Rolf Meinhardt, Heiko Briesen

2021Crystal Growth & Design16 citationsDOI

Abstract

Nowadays, it is common to analyze crystallization processes and crystalline products using two-dimensional image analysis. Various techniques exist but they are not fundamentally capable of capturing the full morphology of particles due to their limitation in two dimensions. This is particularly true when complex shapes, e.g., through agglomeration or broken crystals, occur. Here, an approach is presented in which potash alum crystals are sampled from a laboratory-scale reactor at six time points over the course of a crystallization process. Three-dimensional (3D) images of all crystals in the samples were obtained by microcomputed tomography and used for morphological characterization. The method directly yields volume and surface area distributions without the need for any assumption regarding particle morphology. Applying geometric crystal models allowed for a more detailed analysis of the crystals. In the example considered, it was shown that most crystals assumed nonideal shapes over the course of the process. The supporting model provides indication that the shapes approach ideality through face-independent crystal growth. Overall, more than 11 000 crystals were analyzed. In general, this work aims at demonstrating the potential of crystal analysis by means of microcomputed tomography and 3D image analysis.

Topics & Concepts

CrystallizationCrystal (programming language)Materials scienceAlumCrystal growthTomographyParticle (ecology)Process (computing)Characterization (materials science)Crystal habitMineralogyPotashBiological systemComputer scienceCrystallographyOpticsChemistryNanotechnologyPhysicsGeologyThermodynamicsPotassiumOceanographyMetallurgyProgramming languageBiologyOperating systemCrystallization and Solubility StudiesMineral Processing and GrindingMinerals Flotation and Separation Techniques