Calibration of DEM simulations for dynamic particulate systems

Christopher Windows-Yule; Aurelien Neveu

doi:10.4279/pip.140010

Calibration of DEM simulations for dynamic particulate systems

Authors

Christopher Windows-Yule School of Chemical Engineering, the University of Birm- ingham, Edgbaston, Birmingham, B15 2TT, UK
Aurelien Neveu Granutools SPRL, Rue Jean Lambert Defrêne 107, 4340 Awans, Belgium

DOI:

https://doi.org/10.4279/pip.140010

Keywords:

Discrete element method, calibration, validation, DEM, industrial modelling

Abstract

Calibration and validation represent crucial but often-overlooked ingredients in the successful application of discrete element method (DEM) simulations. Without rigorous calibration/validation protocols, the results of DEM simulations can be imprecise or even unphysical, yet all too often the methods used by practitioners are at best cursory, and at worst entirely absent. As the particle-handling industries show an increasing interest in DEM, it is vital that this issue be resolved lest a potentially powerful tool be written off by industry as unreliable. In this work, we provide a concise overview of contemporary methods used in the calibration and validation of DEM simulations of powder flows, providing practical insights into their strengths and weaknesses, and ideas for manners in which they may be improved and/or rendered more easily adoptable in the future.

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Published

2022-07-07 — Updated on 2022-07-13

Versions

2022-07-13 (2)
2022-07-07 (1)

How to Cite

Windows-Yule, C., & Neveu, A. (2022). Calibration of DEM simulations for dynamic particulate systems. Papers in Physics, 14, 140010. https://doi.org/10.4279/pip.140010 (Original work published July 7, 2022)

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