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International Journal of Innovation and Scientific Research
ISSN: 2351-8014
 
 
Monday 24 September 2018

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Experimental and theoretical studies of vibrational motion of raw cotton on inclined mesh surface


Volume 9, Issue 1, September 2014, Pages 78–85

 Experimental and theoretical studies of vibrational motion of raw cotton on inclined mesh surface

Prof. Botir Mardonov, Yelena Tadaeva, and Ismanov Muhammadziyo

Original language: English

Received 9 July 2014

Copyright © 2014 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract


In these research paper theoretical and experimental studies of vibrational motion of raw cotton in inclined mesh surface is considered. For cleaning small trash of raw cotton, new installation that has inclined mesh surface is used. The mathematical model of the motion of flying detachment in the line of plates with elastic elements is made up. Differential equations of motion of cotton's flying detachment are composed using the Lagrange II-kind. These equations are solved numerically by the program MAPLE-9.5. Results are obtained that is characterizing the movement law of cotton on an inclined mesh surface. Experimental study shows that the small particles of trash move on vibrating surfaces with different trajectories. This ensures separation and loosening and serves cleaning cotton from various trashes. Proposed installations provide vibration that is important element in the process of sifting.

Author Keywords: cotton, fiber, differential equation, vibration, fraction, inclined mesh surface, plate, springs.


How to Cite this Article


Prof. Botir Mardonov, Yelena Tadaeva, and Ismanov Muhammadziyo, “Experimental and theoretical studies of vibrational motion of raw cotton on inclined mesh surface,” International Journal of Innovation and Scientific Research, vol. 9, no. 1, pp. 78–85, September 2014.