Affiliation:
1. VINNITSA NATIONAL AGRARIAN UNIVERSITY
Abstract
Separation is an important process of processing seed material of small-seeded crops. This process is based on technical and technological principles of separation of seed material depending on differences in physical and mechanical properties of individual components of seed material. The quality of seed directly depends on the quality of separation. Cylindrical triers are seed cleaning machines designed to separate seeds that differ in length. The working body of the trier is a cylinder with an inner honeycomb surface and a prefabricated hopper, which is mounted on the axial support of the cylinder. The principle of operation of the trier is based on the rotation of the cylinder, during which the cells get seeds of different geometric sizes. The aim of the study is to determine the theoretical patterns of change of technological parameters of the process of separation of seed material of small-seeded crops from the design and regime parameters of the cylindrical honeycomb trier by numerical simulation. A model of the process of separation of seeds of small-seeded crops on a cylindrical honeycomb trier in the Simcenter STAR-CCM+ software package has been developed. Based on the physical and mechanical properties of seed material on the example of mustard seeds, the initial and boundary conditions of the cylindrical honeycomb trier, the separation process is visualized depending on research factors (number of seeds and impurities in the seed mixture, trier cylinder and trier cylinder and diameter). The next stage of research is to determine the dependence of the values of the minimum and maximum angles of seed exit from the cell of the trier cylinder on the research factors.
Publisher
Vinnytsia National Agrarian University
Reference12 articles.
1. [1] Aliiev, E., & Lupko, K. (2021). Prerequisites for the creation of a mechatronic system of indented cylinders for the separation of fine seeds. Scientific Horizons. Vol.24(3). P. 75-86 [in English].
2. [2] Pertti Broas. (2001). Advantages and problems of CAVE-visualisation for design purposes. Trans. VTT Symposium Virtual prototyping. Espoo. Finland. February 1 st. P. 73–81 [in English].
3. [3] Bai C. (1996). Modelling of spray impingement processes. Ph.D Thesis. University of London. 449 p. [in English].
4. [4] Dominik Kubicki, Simon Lo. (2012). Slurry transport in a pipeline – Comparison of CFD and DEM models. Ninth International Conference on CFD in the Minerals and Process Industries. CSIRO, Melbourne, Australia (10-12 December 2012). P. 1–6 [in English].
5. [5] Sang Won Han, Won Joo Lee, Sang Jun Lee. (2012). Study on the Particle Removal Efficiency of Multi Inner Stage Cyclone by CFD Simulation. World Academy of Science, Engineering and Technology. Vol. 6. P. 411–415 [in Korean].