SU1393724A1 - Method of conveying solid particles through fluid with mass exchange - Google Patents

Abstract

The invention relates to hydrotransport, in particular to the transport of bulk materials in a liquid with mass transfer. The purpose of the invention is to increase the preservation of solid particles while simultaneously intensifying the process of mass exchange. The solid particles are affected by the fluid flow both in the direction of their movement and in the direction opposite to that of their movement, while the effects of the liquid flow are carried out alternately, starting with the influence in the direction of moving the solid particles with a flow rate of liquid 1: 1-13 times more, and in the opposite direction with a flow rate of liquid equal to 0.1-0.9 saltation speed 1 sludge. (L

Description

one

I The invention relates to hydrotransport, in particular to the transportation of solid materials in bulk with mass transfer.

The purpose of the invention is to increase the preservation of solid particles with simultaneous intensification of the mass exchange process.

Pa drawing shows schematically an installation that implements the proposed method, a general view.

The installation consists of pipeline 1, a loading device with a dispenser 2 of solid bulk material, a sluice gate 3, a buffer tank 4, a pulsator consisting of: two two solenoid valves and 6, a centrifugal pump 7, a va i yyMHoro pump 8 9 and 10, g | of the intermediate tank 11 and the valve control block 12, I. The method is carried out in the following manner,

Bulk material through the dispenser 2 is gnawed into the pipeline 1. Dispenser. It is equipped with an electromagnetic actuator valve (not shown). Material is unloaded from the opposite end of the pipeline 1 through a sluice gate 3. i The buffer tank 4 and from it continuously receives water, On solid particles of bulk material , which is in the pipeline, is influenced by the flow of the bridge, and this effect is realized both in the direction of movement of solid particles and in the opposite direction of their movement. During exposure to solid particles. : in the direction of their movement (direct action), the valve 5 opens and the water from the intermediate tank 11 is fed by the centrifugal pump 7 into the pipeline 1 at a speed 1.1–13 times greater than the speed of saltation, and moves the solid particles along the channel to the place of discharge. Speed

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The liquid and the liquid are controlled by the valve 9. During exposure, the valve 5 closes, the valve 6 opens and the water from the pipeline 1 is sucked into the intermediate tank 11 due to the vacuum generated by the vacuum.

10 by a pump 8. The speed of the fluid is controlled by the valve 10. The time during which valve 5 or 6 is open is maintained by the control unit 12. From intermediate tank 11, liquid is continuously withdrawn in an amount equal to the volume of liquid supplied to the buffer tank.

The flow rate of the liquid under the reverse effect is equal to O, 1GO, 9 saltation rate. The rate of saltation corresponds to the maximum velocity of the fluid in the channel, at which solid particles in the channel remain at the bottom in a stationary state. Under direct action, the metering valve 2 is closed, and on the reverse, it is open.

30, Formula and inventions

. The method of transporting solid particles in a liquid with mass transfer, which consists in that on the solid

d the particles fed into the pipeline, exert a force in the direction of movement and fluid flow in the direction opposite to the movement of solid particles, so that they are, in order to increase the safety of solid particles while simultaneously intensifying mass transfer, the impact in the direction of movement of the particles is carried out by the flow of fluid at a rate of greater saltation rate, and in the opposite direction with a flow rate of fluid less than the speed of saltation.

Formulas and inventions

. The method of transporting solid particles in a liquid with mass transfer, which consists in that on the solid

Particles fed into the pipeline exert a force in the direction of movement and fluid flow in the direction opposite to the movement of solid particles, so that, in order to increase the safety of solid particles while simultaneously enhancing mass transfer, the direction of movement of the particles is carried out with a fluid flow at a speed of greater speed of saltation, and in the opposite direction with a speed of flow of fluid less than the speed of saltation.

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Claims (1)

. A method of transporting solid particles in a liquid with mass transfer, which consists in the fact that the solid particles supplied to the pipeline are influenced by the force in the direction of movement and by the fluid flow in the direction opposite to the movement of solid particles, in that, in order to increase safety of solid particles while simultaneously intensifying mass transfer effects in the direction of movement of the particles is carried out ^ 5 fluid flow at a rate greater ₇ saltation velocity, and in the opposite direction - a fluid flow velocity less than the saltation velocity.