SU1214164A1 - Water trap - Google Patents

Description

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The invention relates to a technique for separating moisture from air streams and can be used in air conditioning systems and in various industrial zones for cleaning gases from liquid and solid particles.

The purpose of the invention is to increase the moisture separation efficiency by reducing hydraulic losses and expanding the technological capabilities of moisture separation by adjusting the gas flow rate.

Figure 1 shows the proposed device Figure 2 - view A in figure 1; on fig.Z - section bb in figure 1.

The device contains a pipe 1, squeezed in the direction of the radius of curvature of a variable oval cross section having a slot-shaped position in the zone of maximum distance from the pipe ends and a nozzle device 2. A through channel 3 is provided between the inner wall of the pipe and the outer wall of the nozzle device element having a ring shape.

The device works as follows.

In the through channel 3, the vacuum is constantly maintained due to the outflow of gas flow from the nozzle apparatus 2 at high speed. The gas flow entering the pipe 1 through channel 3 is accelerated by a gas jet flowing out of the nozzle apparatus 2. The kinetic energy of the jet flowing out of the nozzle apparatus 2 the gas is consumed to accelerate the gas coming from channel 3, as a result, the total flow rate through pipe 1 will decrease. Thus, the size of the passage section of channel 3

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determines the gas flow velocity in pipe 1 and the hydraulic loss. When channel 3 is closed, the gas flow passes completely through the mass apparatus 2 and the rate of gas outflow from the nozzle apparatus can reach the speed of sound. In this case, the hydraulic losses are maximum. Pass size

JO of the through channel section can be made so that, when it is fully opened, the gas flow rate in the pipe will be minimal and equal to the flow rate in the Sowing main. In this case, hydraulic losses are minimal. Change the flow area of the through channel 3 by installing the corresponding removable throttle 4, it is possible

20 control of the gas flow velocity in the pipe 1, and consequently, the centrifugal forces in the dehumidifier of one size, which is necessary for the separation of particles with a different degree of dispersion from the gas flow 25.

The proposed solution allows to limit the flow rate of the gas in the moisture separator and

30 dramatically reduce hydraulic losses due to the presence of a through channel between the pipe and the nozzle. In addition, the installation of a removable throttle in the through-flow channel allows one to expand the technological capabilities of the dehumidifier by regulating the gas flow rate in the pipe and apply a moisture separator of one standard size to separate particles with a different degree of dispersion from the gas flow. By knowing the dispersed composition of the particles to be separated, it is possible to choose the optimal gas flow rate by installing a suitable removable throttle into the moisture separator.

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Claims (2)

1. A moisture separator containing a pipe and concentrically located in it At the inlet of a nozzle apparatus, characterized in that, in order to increase the efficiency of moisture separation by reducing hydraulic losses, a through channel is formed at the inlet between the inner wall of the pipe and the outer wall of the nozzle apparatus. 2. The dehumidifier according to claim 1, characterized in that, in order to expand technological capabilities by regulating the gas flow rate by changing the passage cross section of the through channel, it is equipped with a removable throttle element having an annular shape installed in front of the nozzle apparatus. S <Put. 1