Hybrid DEM-compartment modeling approach for granular mixing

Patricia M. Portillo; Fernando J. Muzzio; Marianthi G. Ierapetritou

doi:10.1002/aic.11054

Hybrid DEM-compartment modeling approach for granular mixing

Patricia M. Portillo, Fernando J. Muzzio, Marianthi G. Ierapetritou

School of Engineering, Chemical & Biochemical Engineering

Research output: Contribution to journal › Article › peer-review

39 Scopus citations

Abstract

A new hybrid approach to model powder mixing based on the use of discrete element method (DEM) and compartment modeling is presented. The main motivation behind the proposed approach is to reduce the computational expense of modeling powder mixing by partitioning the mixing system into high shear areas that are modeled using detailed DEM simulations, whereas the remaining process is simulated using stochastic models. The approach can, thus, be used to model complex geometries, as well as a large number of particles that is typically unfeasible with the existing approaches. The results of a horizontal convective mixing vessel are used to illustrate the applicability and efficiency of the proposed approach.

Original language	English (US)
Pages (from-to)	119-128
Number of pages	10
Journal	AIChE Journal
Volume	53
Issue number	1
DOIs	https://doi.org/10.1002/aic.11054
State	Published - Jan 2007

All Science Journal Classification (ASJC) codes

Biotechnology
Environmental Engineering
General Chemical Engineering

Keywords

DEM
Hybrid approach
Mixing models

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10.1002/aic.11054

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title = "Hybrid DEM-compartment modeling approach for granular mixing",

abstract = "A new hybrid approach to model powder mixing based on the use of discrete element method (DEM) and compartment modeling is presented. The main motivation behind the proposed approach is to reduce the computational expense of modeling powder mixing by partitioning the mixing system into high shear areas that are modeled using detailed DEM simulations, whereas the remaining process is simulated using stochastic models. The approach can, thus, be used to model complex geometries, as well as a large number of particles that is typically unfeasible with the existing approaches. The results of a horizontal convective mixing vessel are used to illustrate the applicability and efficiency of the proposed approach.",

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N2 - A new hybrid approach to model powder mixing based on the use of discrete element method (DEM) and compartment modeling is presented. The main motivation behind the proposed approach is to reduce the computational expense of modeling powder mixing by partitioning the mixing system into high shear areas that are modeled using detailed DEM simulations, whereas the remaining process is simulated using stochastic models. The approach can, thus, be used to model complex geometries, as well as a large number of particles that is typically unfeasible with the existing approaches. The results of a horizontal convective mixing vessel are used to illustrate the applicability and efficiency of the proposed approach.

AB - A new hybrid approach to model powder mixing based on the use of discrete element method (DEM) and compartment modeling is presented. The main motivation behind the proposed approach is to reduce the computational expense of modeling powder mixing by partitioning the mixing system into high shear areas that are modeled using detailed DEM simulations, whereas the remaining process is simulated using stochastic models. The approach can, thus, be used to model complex geometries, as well as a large number of particles that is typically unfeasible with the existing approaches. The results of a horizontal convective mixing vessel are used to illustrate the applicability and efficiency of the proposed approach.

KW - DEM

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KW - Mixing models

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Hybrid DEM-compartment modeling approach for granular mixing

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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