Corn kernel shape is an important feature to improve the accuracy of simulation results, also the repose angle is often used to calibrate model parameters in simulation. In this study, the effects of the corn kernel shapes on the behavior during corn kernels accumulation were investigated in detail. Firstly, the DEM models of three typical shapes of corn kernels were developed. Secondly, the influences of the corn kernel shapes on the process of forming repose angle were investigated, such as corn kernels distance change, energy conversion, and the contact number between corn kernels. Results show that the corn kernel shape has a significant effect on the repose angle formation. The irregular shape of corn kernels limit their rolling when adding the corn kernel length in one or two directions. In addition, the irregular shapes of corn kernels increase the contact number and extend simulation time. Regular shape corn kernels need to be mixed with irregular shape corn kernels to improve their flowability. Finally, observation of the trajectory of corn kernel repose angles indicates that spherical corn kernels contact the bottom plate early, and forming small cone first, then the cone becomes bigger to change the direction of other corn kernels from top to bottom.
Keywords: corn kernel shape, energy conversion, repose angle, DEM
DOI: 10.25165/j.ijabe.20221502.5670

Citation: Shi L R, Zhao W Y, Yang X P. Effects of typical corn kernel shapes on the forming of repose angle by DEM simulation. Int J Agric & Biol Eng, 2022; 15(2): 248–255.

corn kernel shape, energy conversion, repose angle, DEM

Wensrich C M, Katterfeld A. Rolling friction as a technique for modelling particle shape in DEM. Powder Technology, 2012; 217(2): 409–417.

Markauskas D, Kačianauskas R, Džiugys A, Navakas R. Investigation of adequacy of multi-sphere approximation of elliptical particles for DEM simulations. Granular Matter, 2010; 12(1): 107–123.

Chen H, Zhao S, Zhou X. DEM investigation of angle of repose for super-ellipsoidal particles. Particuology, 2020; 50: 53–66.

Chen J, Gao R, Liu Y P, Zhu H T. Numerical study of particle morphology effect on the angle of repose for coarse assemblies using DEM.

Advances in Materials Science and Engineering, 2019; 2019: 1–15.

Wiącek J, Molenda M, Horabik J, Jin Y O. Influence of grain shape and intergranular friction on material behavior in uniaxial compression: Experimental and DEM modeling, Powder Technology, 2012; 217(2): 435–442.

Höhner D, Wirtz S, Scherer V. A numerical study on the influence of particle shape on hopper discharge within the polyhedral and multi-sphere discrete element method. Powder Technology, 2012; 226: 16–28.

Chen Z R, Yu J Q, Xue D M, Wang Y, Zhang Q, Ren L Q. An approach to and validation of corn-seed-assembly modelling based on the discrete element method. Powder Technology, 2018; 328(4): 167–183.

Höhner D, Wirtz S, Scherer V. Experimental and numerical investigation on the influence of particle shape and shape approximation on hopper discharge using the discrete element method. Powder Technology, 2013; 235: 614–627.

Khazeni A, Mansourpour Z. Influence of non-spherical shape approximation on DEM simulation accuracy by multi-sphere method. Powder Technology, 2018; 332(6): 265–278.

Owen P J, Cleary P W. Prediction of screw conveyor performance using the discrete element method (DEM). Powder Technology, 2012; 193(3): 269–282.

Wang Y X, Liang Z J. Calibration method of contact characteristic parameters for corn seeds based on EDEM. Transactions of the CSAE, 2016; 32(22): 36–42. (in Chinese)

Jayasundara C T, Yang R Y, Yu A B, Curry D. Discrete particle simulation of particle flow in IsaMill—effect of grinding medium properties. Chemical Engineering Journal, 2008; 135(1): 103–112.

Wang L J, Li R, Wu B X, Wu Z C, Ding Z J. Determination of the coefficient of rolling friction of an irregularly shaped corn particle group using physical experiment and simulations. Particuology, 2017; 38(6): 185–195.

Shi L R, Zhao W Y, Sun B G, Sun W. Determination of the coefficient of rolling friction of irregularly shaped corn particles by using discrete element method. Int J Agric & Biol Eng, 2020; 13(2): 15–25

Zhou L, Yu J Q, Wang Y, Yan D X, Yu Y J. A study on the modelling method of corn-seed particles based on the discrete element method. Powder Technology, 2020; 374: 353–376.

Markauskas D, Ramírez-Gómez Á, Kačianauskas R, Zdancevičius E. Corn grain shape approaches for DEM modeling. Computers & Electronics in Agriculture, 2015; 118(C): 247–258.

Shi L R, Yang X P, Zhao W Y, Sun W, Wang G P, Sun B G. Investigation of interaction effect between static and rolling friction of corn kernels on repose formation by DEM. Int J Agric & Biol Eng, 2021; 14(5): 238–246.

Markauskas D, Kačianauskas R, Džiugys A, Navakas R. Investigation of adequacy of multi-sphere approximation of elliptical particles for DEM simulations. Granular Matter, 2010; 12(1): 107–123.

Boac J M, Casada M E, Maghirang R G, Harner J P. Material and interaction properties of selected grains and oilseeds for modeling discrete particles. Transactions of the ASABE, 2010; 53(4): 1201–1216.

Horabik J, Molenda M. Parameters and contact models for DEM simulations of agricultural granular materials: a review. Biosystems Engineering, 2016; 147: 206–225.

Shi S. Design and experimental study of corn precision seed metering device with air pressure combined hole. Beijing: China Agricultural University, 2015; pp.27–51.