SU1503870A1 - Ejector mixer - Google Patents

Abstract

The invention relates to devices for mixing various media and can be used in the chemical, petrochemical, and food industries and in agriculture. The use of the invention allows to achieve higher productivity due to the intensification of the mixing process. In the mixing tank 1, the pipeline 2 is installed in the form of two paired pipes with ejectors-mixers. The ejectors are provided with a peripheral tapering nozzle with a central nozzle 14. A curvilinear diffuser 17 with a slit-like outlet nozzle is connected to the confusion chamber 16. The ratio of the radius of curvature of the diffuser to the radius of the mixing tank is 0.35-0.45, the ratio of the area of the entrance to the diffuser to the area of its output is 0.10-0.12. 2 hp f-ly, 5 ill.

Description

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The invention relates to devices for mixing various media, for example, liquids with liquids, liquids and gases, and can be used in the chemical, petroleum and food industries, as well as in agriculture, for example, for preparing ammonia water from liquid ammonia.

The purpose of the invention is to increase the productivity of the plant by intensifying the mixing process.

FIG. 1 shows an ejector mixer, general view; in fig. 2 is a section A-A in FIG. I; in fig. 3 is a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. 3); in fig. 5 is a view of FIG. four.

The ejector mixer consists of a mixing tank 1, inside which pipe 2 is mounted in the form of two paired pipes with ejector mixers 3, devices for controlling the level of the main fluid 4 and ready mix 5, safety valve 6, pipelines 7 for feeding mixed liquid or gaseous media and a drain pipe 8 with shut-off devices 9 and 10, an additional tank 11 and a hose 12 with a valve 13 connecting it with the main tank 1. The ejectors-mixers 3 contain a central tapering nozzle 14, peripheral tapering ec nozzle 15, convergent bias chamber 16 to which is attached a curved diffuser 17 having a prominent schele- outlet nozzle 18. Since the tube 2 ejectors, mixers 19 are connected to nozzles.

Ejector mixer works as follows.

A certain amount of liquid is poured into the container 11, which is controlled by its appearance in the locking device 4. The mixed liquid or gas, after opening the locking device 9, enters the pipeline 2, where it is evenly distributed along the entire length. Further, this fluidity, the passage through the peripheral nozzle 15 of the ejector-mixers 3 due to the transfer of pressure in the environment and the pressure at the inlet to the ejector, draws through the central nozzle 14 the liquid in the vessel. The pipeline 2 is made in the form of paired pipes for a more uniform supply of pressure fluid to the peripheral nozzle 15 and partially twisting the pressure flow in order to

Intensification of mixing in the displacement chamber 16 of ejector-mixers 3. In the mixing chamber 16 of the ejector mixers, the fields of velocities and pressures of the mixed media are equalized, and the flow enters the curvilinear diffuser 17 and through the slit nozzle 18 enters the container 1. The end of the displacement process is determined the appearance of the mixture in the control device 5. In order to prevent the pressure in the tank 1, which exceeds the permissible, it is equipped with a safety valve 6. The upper part of the mixing tank 1 is connected to an additional tank 11, half filled with the same liquid as that initially poured into the mixing tank 1. The gaseous fractions of the mixture through the hose 12 when the valve 13 is open enters the additional tank 11, mixes with the liquid and returns from time to time into the tank 1. The drained mixture is drained through locking device 10.

Claims (3)

1. An ejector mixer containing a mixing tank, inside which a pipeline is installed along its longitudinal axis with mixing ejectors including a central tapering nozzle, a confusing displacement chamber and a diffuser and installed at an acute angle to the axis of the pipeline, characterized in that plant performance by intensifying the displacement process, the pipeline is made in the form of two paired pipes, the ejector is equipped with peripheral tapering nozzles connected to the pipes, central The tapering nozzles are placed between the pipes, the diffusers of the ejectors-mixers are curved with a slit profile of the output section, while the diffusers are directed alternately in different directions relative to the axis of the pipeline at an angle of 40-50 °. 2. A mixer according to Claim 1, characterized in that the ratio of the area of the entrance to the diffuser to the area of its output is 0.10-0.12. 3.Mixer according to paragraphs. 1 and 2, characterized in that the ratio of the radius of curvature of the diffuser to the radius of the mixing tank is 0.35-0.45. eleven // /// 77/777 777 777 FIG. 2 B - 5 H 7 3 3 2 I / Fi. J In id FIG. five f8