Chemical Engineering Research & Design, Vol.165, 386-397, 2021
Terahertz pulsed imaging as a new method for investigating the liquid transport kinetics of alpha-alumina powder compacts
Investigating the liquid transport kinetics of solid catalysts is of great importance for gain ing a better understanding of the manufacturing and performance of such catalysts during reaction upon contact with the liquid. Terahertz pulsed imaging (TPI) coupled with a newly designed flow cell was used to quantify the rate of water ingress into alpha-alumina pellets with a range of different porosities. A wide range of compaction forces (cold compaction, 7-58 kN) and sintering conditions (no firing and sintering at 1200 and 1300 degrees C) was investigated to explore the optimal pellet microstructure, i.e. mechanically strong but sufficiently porous for fast liquid transport kinetics. The results confirm that both the microstructure characteristics, particularly porosity, as well as the surface properties, i.e. wettability, influence the liquid transport kinetics. Fitting the TPI penetration rates with a power law shows that the type of observed mass transport characteristics is consistent with Darcy flow. The Lucas-Washburn equation was used to calculate the hydraulic radius based on the transport data. In summary, the results demonstrate that TPI has great potential to study the liquid transport kinetics of porous ceramic catalysts and catalyst supports and that can comfortably quantify transport processes at rates of 250 mu m s(-1) and beyond in such substrates for better quality control and optimised design and performance of such materials. (c) 2020 Institution of Chemical Engineers. Published by Elsevier B.V. All rights reserved.