Conveyance of a particle by a vertical screw, which is limited by a coaxial fixed cylinder

Authors

  • S.F. Pylypaka
  • V.M. Nesvidomin
  • M.B. Klendii
  • I.L. Rogovskii
  • T.A. Kresan
  • V.I. Trokhaniak

DOI:

https://doi.org/10.31489/2019m2/108-119

Keywords:

particle, vertical screw, angular velocity of rotation, cylindrical cover, differential equations, kinematic parameters

Abstract

Differential equations of relative particle motion along the periphery of a vertical screw have been deduced which rotates about its axis and is limited by a coaxial fixed cylinder. The equations have been solved by applying numerical methods and the trajectories of relative particle helical motion, that is to say, movement along the edge of a screw, which is common for a screw surface and for a limiting cylinder, have been built. The force of particle friction on the screw surface and on the surface of a cylindrical cover has been taken into consideration. The cases, when a helix angle, that is to say, the angle of screw edge inclination, is less than the angle of particle friction on the surface of a screw, when it is equal to a friction angle and when it is higher than a friction angle, have been considered. In addition, a specific case, when a screw is fixed and a particle moves downwards by gravity, which takes place in spiral chutes, has been analyzed. Kinematic characteristics - time curves have been presented.

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Published

2019-09-30

Issue

Section

MECHANICS