Solid State Material Driven Turbine to Reduce Segregation during Bunker Filling

Denzel, Michael; Prenner, Michael; Sifferlinger, Nikolaus August

doi:10.1007/s00501-022-01311-6

Berg Huettenmaenn Monatsh

2023

DOI: 10.1007/s00501-022-01311-6

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Solid State Material Driven Turbine to Reduce Segregation during Bunker Filling

Michael Denzel

Michael Prenner

Nikolaus August Sifferlinger

Abstract: For most applications and their following processes, an evenly distributed bunker outflow is desired in terms of particle size. Various discrete element simulations were performed to analyze the current state of an existing bunker used for storage of blast furnace sinter, which is simply filled with a discharging belt conveyor. Great segregation effects could be determined, which are mainly caused by the filling method and further intensified by the core flow effect and bunker geometry.Several concepts and dev… Show more

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Cited by 2 publications

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Evaluation of Mixing Effects and Particle Breakage on a Cross Flow Turbine with DEM

Denzel,

Prenner,

Sifferlinger

2024

Berg Huettenmaenn Monatsh

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Various effects during conveying and storage processes lead to size segregation of bulk material, but many applications require a mostly constant particle size distribution. Especially during bunker filling, segregation effects are noticed, which are further intensified by possible core flow effects. In order to reduce segregation effects during bunker filling, a cross flow turbine is installed at a bunker used for storage of blast furnace sinter. In this contribution, discrete element simulations were performed to analyze mixing effects and possible particle breakage due to the cross flow turbine. Significant mixing effects during bunker filling are noticed due to the cross flow turbine. The results show a more evenly distributed bunker outflow in terms of particle size.Particle breakage is analyzed by means of a newly developed breakage model for the Discrete Element Method (DEM). The model is based on a probabilistic particle replacement with voronoi-tessellated fragments. The validated breakage model allows high accuracy in prediction of fragment size distribution. Fragments are further breakable, which allows simulation of processes with several damaging effects. The breakage model was calibrated with a specially developed automated single particle impact tester for rapid analysis of breakage characteristics of bulk materials.

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Evaluation of Mixing Effects and Particle Breakage on a Cross Flow Turbine with DEM

Denzel,

Prenner,

Sifferlinger

2024

Berg Huettenmaenn Monatsh

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A breakage model for DEM based on a probabilistic particle replacement with Voronoi fragments

Denzel,

Prenner,

Sifferlinger

et al. 2023

Minerals Engineering

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Solid State Material Driven Turbine to Reduce Segregation during Bunker Filling

Cited by 2 publications

References 14 publications

Evaluation of Mixing Effects and Particle Breakage on a Cross Flow Turbine with DEM

Evaluation of Mixing Effects and Particle Breakage on a Cross Flow Turbine with DEM

A breakage model for DEM based on a probabilistic particle replacement with Voronoi fragments

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