CFD-based redesign of large industrial-scale cyclones

Cyclones represent a cost-effective solution employed for the separation of particles in gas-solid streams, wherein the enhancement of performance relies on the careful balance between pressure drop and collection efficiency. This study employs Computational Fluid Dynamics (CFD) techniques to numeri...

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Bibliographic Details
Published in:Powder technology 2024-12, Vol.448, p.120306, Article 120306
Main Authors: Parno, Harlley H., Rosa, Leonardo M., Utzig, Jonathan, Wiggers, Vinicyus R., Decker, Rodrigo K., Meier, Henry F.
Format: Article
Language:English
Subjects:
CFD-based redesign
Computational fluid dynamics
Eulerian-Lagrangian approach
Large industrial-scale cyclone
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Summary:Cyclones represent a cost-effective solution employed for the separation of particles in gas-solid streams, wherein the enhancement of performance relies on the careful balance between pressure drop and collection efficiency. This study employs Computational Fluid Dynamics (CFD) techniques to numerically assess a large-scale first stage cyclone within a cement kiln cyclone tower. Investigating its reported low collection efficiency, we analyze the impact of geometric modifications aimed at enhancing cyclone performance. The introduction of a dipleg proves to be particularly effective, leading to a substantial increase in collection efficiency and a reduction in pressure drop. The most favorable cyclone configuration demonstrates a remarkable 6 % improvement in collection efficiency and a decrease in pressure drop of approximately 1 mbar. Consequently, particle emissions from the first-stage cyclone are reduced by approximately 30 %, while an increase in clinker production by approximately 100 tons per day is achieved. These findings showcase the potential for significant operational and environmental benefits through optimized cyclone design in cement manufacturing processes. [Display omitted] •CFD techniques for evaluation of large-scale first stage cyclone in a cement kiln.•A diagnosis to explain a poor performance of industrial cyclone based on CFD.•Prognosis proposition for cyclone redesign.•A dipleg improved the efficiency while reducing the pressure drop in cyclone.•The best cyclone presents an emission reduction of 30 %.
ISSN:0032-5910
DOI:10.1016/j.powtec.2024.120306