SU1023147A2 - Vacuum air-lift pump - Google Patents

Abstract

VACUUM-ERLIFT INSTALLATION, according to auth. No. 853191, about the fact that, in order to increase the efficiency and ensure stable operation during the transportation of liquids: with solid inclusions, the installation is equipped with a receiving chamber with a drain pipe connected to it with an air separator and choke drainage devices, one of which is located at the level of connection of the drain pipe to the receiving chamber. W Q С to from 4 h |

Description

The invention relates to pumping, in particular, to the design of hydroelectric lifts, working at the expense of changing the density of the liquid, while saturating it with gas, and can be used in the design of airlifts 5 liters of mining, construction and agriculture, According to the main bus. No. 853191 is known for a vacuum-air-lift installation, an O-air adder air separator, a 10-rise pipe connected to it in the upper part, an air duct with a mixer and a delivery pipe, the lifting pipe being made integral with teescopically connected upper and 5 lower parts the last of which is installed with the possibility of axial movement, associated with the mixer and equipped with a float chamber Q

The disadvantage of this installation is the low CID and unstable operation when transporting liquids with solid inclusions.

The purpose of the invention is to increase efficiency and ensure stable operation when transporting liquids with solid inclusions.

This goal is achieved by the fact that the vacuum-air-lift unit is equipped with a receiving chamber with a drain pipe connected to it, connected with an air separator, and drainage: drainage devices, one of which is located at the level of connecting the drain pipe to the receiving chamber.

Figure 1 shows schematically va. Qum-air-lift installation, longitudinal section} in FIG. 2 — receiving chamber, section,

The installation includes an air deflector 1, a lifting pipe connected to it in the upper part, an air line 2 with a mixer 3, and a delivery pipe 4, the lifting pipe being made integral with a telescopic st. .. connected to the upper and lower parts 5 and 6, the last of which is mounted with the possibility of the final movement is connected with the mixer 3 and is equipped with a float chamber 7. In addition, the installation is equipped with a receiving chamber 50 8c connected to it by a drain pipe 9, connected to the air separator 1 and choke drainage devices 10 and 11, one of which (device 10) is located 55 at the level of the connection of the drain pipe 9 to the ave (the chamber 8, a valve 12 is installed on the air line 2, and a vacuum is connected to the air separator 1 the wire 13, and the receiving chamber 8 is equipped with an adjustable valve 14 covering the opening 15. ..

Vacuum air-lift installation works as follows.

After the required vacuum has been created in the air separator 1, the throttle drainage device 10 is opened and atmospheric air is supplied to the mixer 3 from the air duct 2, as a result of which the air-lift process begins. Mixing in the mixer 3, the pulp-air system rises along the bottom of the riser 6 and the top of its part 5 into the air separator 1, where the air through the vacuum line 13 is pumped out and the slurry flows into the receiving chamber 8 and accumulates in the bulk pipe 9 Normal operation vacuum airlift provides for the complete filling of the drain pipe 9 with transported medium, therefore, when the drain pipe 9 is completely filled with pulp, the control can be carried out both visually and with the help of an automatic control system It is necessary to gradually open the valves 14 and the throttle drainage devices 10 and 11. The position of the valve 14 is controlled depending on the performance.

When a vacuum-airlift installation is in operation, the liquid level in the process tank decreases. As soon as this level decreases and at the same time the floating platform in the liquid is lowered, the float chamber 7 together with the lower part of the riser tube 6, the mixer 3, the air duct 2 and the inlet tube 4.

- The pulp flow from the receiving chamber 3 to the consumer is split in two. Its main part (approximately 80%) is transported through the opening 15, and the second part of the flow is directed through the choke drainage device 11, and the clarified pulp flows through the choke drainage device 11. As a result of this bifurcation of the pulp flow, the necessity of which is caused by the presence of fluctuations in the vacuum-airlift performance at the mode with maximum efficiency, a liquid layer is located in the receiving chamber 8 at the inlet opening of the DRAIN pipe 9 constant. This fluid layer performs a dual function: it contributes to the outflow of pulp from the discharge pipe 9 and prevents the air from entering the air separator 1 through the drain pipe 9. Thus, a stable air-lift installation at the modes with maximum efficiency is achieved and the reliability of the installation increases by eliminating shtypovok mouth drain pipe.

The application of the proposed vacuum-lift unit allows the transportation of media. containing hardened particles, at optimum energy consumption modes, i.e. with maximum efficiency. The efficiency of a vacuum airlift operated at the optimum mode is higher than the efficiency of a vacuum airlift operating at maximum capacity, i.e. Togo

the mode on which the operation of the known vacuum-lifting unit is ensured. The exact efficiency improvement of the efficiency depends on the conditions of the exploitation, i.e. from the height of rise, density of the transported medium, absolute pressure in the fan

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Claims (1)

VACUUM-AIRLIFT INSTALLATION, by author No. 853191, from the list of a join, in order to increase the efficiency and ensure stable operation during transportation of liquids: with solid inclusions, the unit is equipped with a receiving chamber with a drain pipe connected to it connected to the air separator and throttle drainage devices, one of which is located at the level of connecting the drain pipe to the receiving chamber. SU "L 023147