The effect of very cohesive ultra-fine particles in mixtures on compression, consolidation, and fluidization
Marnani AK, Bück A, Antonyuk S, van Wachem B, Thévenin D, Tomas J (2019)
Publication Type: Journal article
Publication year: 2019
Journal
Book Volume: 7
Article Number: 439
Journal Issue: 7
DOI: 10.3390/pr7070439
Abstract
This paper focuses on the effect of ultra-fine (d < 10 μm) powders in mixtures with fine (d < 100 μm) bulk material on compression processes and also evaluates the re-fluidization behavior of the compressed bed (history effect). Achieving this goal, different mixtures of fine and ultra-fine Ground-Carbonate-Calcium were compressed at three pressure levels. The results show that by increasing the applied pressure, the compressibility decreases due to change in compaction regime. Subsequently, for the higher pressure, the slope of packing density versus applied stress curves is noticeably different. However, this slope does not depend on the size distribution of mixtures, but on the type of material. Comparing fluidization and re-fluidization curves (bed pressure drop vs. gas velocity) shows an increase in the maximum bed pressure drop (DPpeak) for re-fluidization. By increasing the portion of ultra-fine particles in the binary mixture, DPpeak increases in a non-linear manner. Furthermore, the incipient fluidization point moves to a higher gas velocity. After compression, the peak of the bed pressure drop in the re-fluidization test happens at a lower gas velocity than in the initial fluidization test. Thus, the slope of the loading curve is much larger for re-fluidization. The opposite is observed for the unloading curves.
Authors with CRIS profile
Involved external institutions
Otto-von-Guericke-Universität Magdeburg
Germany (DE)
Technische Universität Kaiserslautern
Germany (DE)
Germany (DE)
Technische Universität Kaiserslautern
Germany (DE)
How to cite
APA:
Marnani, A.K., Bück, A., Antonyuk, S., van Wachem, B., Thévenin, D., & Tomas, J. (2019). The effect of very cohesive ultra-fine particles in mixtures on compression, consolidation, and fluidization. Processes, 7(7). https://doi.org/10.3390/pr7070439
MLA:
Marnani, Abbas Kamranian, et al. "The effect of very cohesive ultra-fine particles in mixtures on compression, consolidation, and fluidization." Processes 7.7 (2019).
BibTeX: Download