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Digital
Library of the European Council for Modelling and Simulation |
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Title: |
Coupled DEM-FEM
Simulation On Maize Harvesting |
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Authors: |
Adam
Kovacs, Peter T. Zwierczyk |
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Published in:
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(2018). ECMS 2018
Proceedings Edited by: Lars Nolle, Alexandra
Burger, Christoph Tholen,
Jens Werner, Jens Wellhausen European Council for
Modeling and Simulation. doi:
10.7148/2018-0005 ISSN:
2522-2422 (ONLINE) ISSN:
2522-2414 (PRINT) ISSN:
2522-2430 (CD-ROM) 32nd European Conference on Modelling and Simulation, Wilhelmshaven, Germany, May 22nd
– May 265h, 2018 |
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Citation
format: |
Adam
Kovacs, Peter T. Zwierczyk (2018). Coupled DEM-FEM
Simulation On Maize Harvesting, ECMS 2018
Proceedings Edited by: Lars Nolle, Alexandra
Burger, Christoph Tholen,
Jens Werner, Jens Wellhausen European Council for
Modeling and Simulation. doi:
10.7148/2018-0405 |
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DOI: |
https://doi.org/10.7148/2018-0405 |
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Abstract: |
One of the main objectives of today’s agriculture is to develop
agricultural machineries that guarantee more and better quality agricultural
products. However, due to the seasonal characteristics of agricultural
products in-situ tests of constructions are limited in time and often prove
to be very expensive. With more than 1000 billion tons of annual production, corn is one of
the most essential agricultural crops in the world. Consequently, our study
focuses on the modeling of corn harvesting through
coupled discrete element and finite element method (DEM-FEM) to provide more
input for machine development. With the use of a complex DEM model of maize and the CAD model of a
common corn header unit a large-scale simulation was carried out. The main
phenomena were directly analyzed by quantitative and image-based qualitative
evaluation methods. For further analysis the stalk rollers of the corn header
unit were also investigated by finite element analysis. The simulation results clearly demonstrate that the discrete element
model of maize is capable of modeling the crucial
phenomenon during corn harvesting in the future. |
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