Shape model of grain and straw using coupling elements and flight simulation of threshing unit of combine by discrete element method

Yuko Ueka; Masami Matsui; Eiji Inoue; Muneshi Mitsuoka; Takashi Okayasu

doi:10.1016/j.eaef.2013.12.006

Shape model of grain and straw using coupling elements and flight simulation of threshing unit of combine by discrete element method

Yuko Ueka, Masami Matsui, Eiji Inoue, Muneshi Mitsuoka, Takashi Okayasu

Bioproduction Environmental Sciences

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

3 Citations (Scopus)

Abstract

The threshing unit of a combine comprises a multiphase flow; therefore, it is essential to consider it on the basis of the flow model. In this study, flight simulation by DEM with fixed wind velocity was carried out. The grain and straw were considered to be ellipsoidal and cuboidal, respectively. A two-dimensional model coupling with a circle element was constructed. Each flight trajectory was reproduced in terms of the initial conditions and changes in winnowing velocity. The average flight velocity of the grain was 0.2 m/s higher than that measured in the experiment. It can simulate to closer phenomenon by mixing different particle mass and straw, analyzing the increase in particles and linking it with fluid analysis.

Original language	English
Pages (from-to)	34-39
Number of pages	6
Journal	Engineering in Agriculture, Environment and Food
Volume	7
Issue number	1
DOIs	https://doi.org/10.1016/j.eaef.2013.12.006
Publication status	Published - Feb 2014

All Science Journal Classification (ASJC) codes

Food Science
Chemical Engineering(all)
Industrial and Manufacturing Engineering

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10.1016/j.eaef.2013.12.006

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title = "Shape model of grain and straw using coupling elements and flight simulation of threshing unit of combine by discrete element method",

abstract = "The threshing unit of a combine comprises a multiphase flow; therefore, it is essential to consider it on the basis of the flow model. In this study, flight simulation by DEM with fixed wind velocity was carried out. The grain and straw were considered to be ellipsoidal and cuboidal, respectively. A two-dimensional model coupling with a circle element was constructed. Each flight trajectory was reproduced in terms of the initial conditions and changes in winnowing velocity. The average flight velocity of the grain was 0.2 m/s higher than that measured in the experiment. It can simulate to closer phenomenon by mixing different particle mass and straw, analyzing the increase in particles and linking it with fluid analysis.",

author = "Yuko Ueka and Masami Matsui and Eiji Inoue and Muneshi Mitsuoka and Takashi Okayasu",

note = "Funding Information: This study was supported in part by a Grant-in-Aid for Scientific research (B) , No. 22380137 ; Study on modeling and optimization of the sorting system in a combine, from Japan Society for the Promotion of Science.",

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AU - Ueka, Yuko

AU - Matsui, Masami

AU - Inoue, Eiji

AU - Mitsuoka, Muneshi

AU - Okayasu, Takashi

N1 - Funding Information: This study was supported in part by a Grant-in-Aid for Scientific research (B) , No. 22380137 ; Study on modeling and optimization of the sorting system in a combine, from Japan Society for the Promotion of Science.

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Y1 - 2014/2

N2 - The threshing unit of a combine comprises a multiphase flow; therefore, it is essential to consider it on the basis of the flow model. In this study, flight simulation by DEM with fixed wind velocity was carried out. The grain and straw were considered to be ellipsoidal and cuboidal, respectively. A two-dimensional model coupling with a circle element was constructed. Each flight trajectory was reproduced in terms of the initial conditions and changes in winnowing velocity. The average flight velocity of the grain was 0.2 m/s higher than that measured in the experiment. It can simulate to closer phenomenon by mixing different particle mass and straw, analyzing the increase in particles and linking it with fluid analysis.

AB - The threshing unit of a combine comprises a multiphase flow; therefore, it is essential to consider it on the basis of the flow model. In this study, flight simulation by DEM with fixed wind velocity was carried out. The grain and straw were considered to be ellipsoidal and cuboidal, respectively. A two-dimensional model coupling with a circle element was constructed. Each flight trajectory was reproduced in terms of the initial conditions and changes in winnowing velocity. The average flight velocity of the grain was 0.2 m/s higher than that measured in the experiment. It can simulate to closer phenomenon by mixing different particle mass and straw, analyzing the increase in particles and linking it with fluid analysis.

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Shape model of grain and straw using coupling elements and flight simulation of threshing unit of combine by discrete element method

Abstract

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