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- Title
Homogeneous drag models in gas–solid fluidization: Big data analytics and conventional correlation.
- Authors
Ouyang, Bo; Zhu, Li‐Tao; Wen, Zhao‐Quan; Chen, Xizhong; Luo, Zheng‐Hong
- Abstract
The drag force model is vital for capturing gas–solid flow dynamics in many simulation approaches. Most of the homogeneous drag models in the literature are expressed as a function of phase fraction (ε) and particle Reynolds number (Res). In this work, we use a "big data" approach to analyze ~108 data points for drag coefficient (Fd) for Geldart Group A particles at atmospheric pressure and find that the contribution of Res on Fd is much less than ε based on the Maximal information coefficient analysis. Thus, these drag models are separately reduced to machine learning and conventional expressions only related to ε. The reduced models achieve almost the same predictive performance as the originals in bubbling, turbulent, and jet fluidizations. Moreover, the reduced models provide better numerical stability for coarse grid simulations. These findings provide new insights into the drag coefficient for Geldart Group A particles under full fluidization conditions.
- Subjects
FLUIDIZATION; BIG data; REYNOLDS number; DRAG force; ATMOSPHERIC pressure; DRAG coefficient; DRAG reduction
- Publication
AIChE Journal, 2023, Vol 69, Issue 9, p1
- ISSN
0001-1541
- Publication type
Article
- DOI
10.1002/aic.18170