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Pavel Vlasak
Pavel Vlasak
The Institute of Hydrodynamics of the Academy of Sciences
The Institute of Hydrodynamics of the Academy of Sciences

Co-authors

Articles

Electromechanics and mechanical engineering
  • Date submitted
    2017-01-02
  • Date accepted
    2017-03-13
  • Date published
    2017-06-25

Coarse particles-water mixtures flow in pipes

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The present paper is focused on evaluation of the effect of average mixture velocity and overall concentration on the pressure drop versus the slurry average velocity relationship, on slurry flow behaviour and local concentration distribution. The experimental investigation was carried out on the pipe loop of inner diameter D =100 mm, which consists of smooth stainless steel pipes and horizontal, inclinable and vertical pipe sections. The frictional pressure drop in the horizontal pipe section were significantly higher than that in the vertical pipe due to the fact, that for stratified flow the contact load produced significant energy losses. The frictional pressure drop of coarse particles mixtures in vertical pipe increased with the increasing mixture concentration and velocity, what confirmed effect of inner friction, inter-particles collision, and the drag due to particle-liquid slip. It was found that for stratified coarse particles-water mixture the frictional pressure drop was not significantly influenced by the pipe inclination, especially for low concentration values. The effect of pipe inclination decreased with increasing mixture velocity in ascending pipe section; the maximum value was reached for inclination between 20 and 40 degrees. Inclination of pressure drop maximum increased with decreasing mixture velocity. In descending pipe section the frictional pressure drop gradually decreased with increasing pipe inclination. The effect of inclination on frictional pressure drops could be practically neglected, especially for low mixture concentration and higher flow velocities. The study revealed that the coarse particle-water mixtures in the horizontal and inclined pipe sections were significantly stratified. The particles moved principally in a layer close to the pipe invert. However, for higher and moderate flow velocities the particles moved also in the central part of the pipe cross-section, and particle saltation [1] was found to be dominant mode of particle conveying.

How to cite: Vlasak P. Coarse particles-water mixtures flow in pipes // Journal of Mining Institute. 2017. Vol. 225. p. 338. DOI: 10.18454/PMI.2017.3.338
Mining
  • Date submitted
    2014-12-20
  • Date accepted
    2015-02-13
  • Date published
    2015-06-01

Design procedure of pressure losses for hydrotransport of the high concetration pulps

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In the paper it is shown that application of standard design methods for hydrotransport used for slurry with small concentration of a solid phase and for hydrotransport of high concentration slurry leads to considerable divergences between practical values of pressure losses which are received as a result of calculation. A major factor, which defines errors of calculation of hydrotransport of slurry with high concentration of a solid phase by means of standard techniques, is that these techniques do not consider rheological characteristics and parameters substantially influencing the amount of spe-cific pressure losses. The offered model of a pulp movement and technique developed on the basis of this model allow to define hydrotransport parameters with a margin error no more than 0,1.

How to cite: Aleksandrov V.I., Vlasak P. Design procedure of pressure losses for hydrotransport of the high concetration pulps // Journal of Mining Institute. 2015. Vol. 216. p. 38.