THE DISCRETE ELEMENT METHOD TO MODELLING AGRICULTURAL BULK MATERIAL BEHAVIOR

The article gives a brief review of the possibilities of discrete element method. The method can be used to determine the parameters of the projected agricultural machines interacting with various bulk agricultural materials.

1. Cundall, P. A disrete numerial model for granular assemblies / P. Cundall, O. Stark // Geotehnique. – 1979. – Vol. 29.ќ1. – P. 47–65. – DOI: 10.1680/geot.1979.29.1.47.

2. Luding, S. Introduction to disrete element methods: basic of contact force models and how to perform the micro-macro transition to continuum theory / S. Luding // European Journal of Environmental and Civil Engineering. – 2008. – Vol. 12. ќ7_8. – P. 785–826. – DOI: 10.1080/19648189.2008.9693050.

3. K. Kesava Rao. An Introduction to Granular Flow / K. Kesava Rao., Prabhu R. Nott. – New York: Cambridge University Press, 2008. – 512 p.

4. Каменецкий, Е. С. Тестирование модели виброкипящего слоя, использующей метод дискретного элемента / Е. С. Каменецкий, Н. С. Орлова, М. В. Волик, Д. Г. Минасян // Известия вузов. Северо-Кавказский регион. Естественные науки. – 2017. – № 4–1. – С. 18–23.

5. Makse, H. A. Granular packings: Nonlinear elasticity, sound propagation, and collective relaxation dynamics / H. A. Makse, N. Gland, D. L. Johnson, L. Schwartz // Phys. Rev. E. – 2004. – Vol. 70.

6. Клишин, C. B. Применение метода дискретных элементов при анализе гравитационного движения гранулированного материала в сходящемся канале / C. B. Клишин // Горный информационно-аналитический бюллетень (научно-технический журнал). – 2009. – № 12. – С. 273–277.

7. Van Liedekerke, P. Discrete element simulations of the influence of fertiliser physical properties on the spread pattern from spinning disc spreaders / P. Van Liedekerke, E. Tijskens, H. Ramon // Biosystems engineering. – 2009. – Р. 1–14.

8. Van Liedekerke, P. DEM simulations of the particle flow on a centrifugal fertilizer spreader / P. Van Liedekerke, E. Tijskens, E. Dintwa, F. Rioual, J. Vangeyte, H. Ramon // Powder Technology. – 2008. – V. 190 (3). – Р. 348–360.

9. Van Zeebroeck, M. Determination of the dynamical behaviour of biological materials during impact using a pendulum device / M. Van Zeebroeck, E. Tijskens, P.Van Liedekerke, V. Deli, J. De Baerdemaeker, H. Ramon // Journal of sound and vibration. – 2003. – V. 266. – Р. 465–480.

10. Van Zeebroeck, M. The Discrete Element Method (DEM) to simulate fruit mechanical damage during transport: effect of vibrations during transport on bruise damage / M. Van Zeebroeck, E. Tijskens, E. Dintwa, J. Loodts, J. De Baerdemaeker, H. Ramon // Acta horticulturae Proceedings of Model-it, May 29- June 03, 2005. – Leuven, Belgium, 2005.