SU1008588A1 - Apparatus for humidifying gas flow - Google Patents

Description

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00 00 The invention relates to air conditioning technology. A device for humidifying a gas stream is known, which contains a vertical chamber placed in it. the lower and upper parts, respectively, of the inlet and outlet air nozzles, the nozzle located in the chamber, the drip moisture metering device and the drainage connection pj. The disadvantage of this device is the low intensity of the air humidification process. This is due to the weak turbulence of the liquid-air interface. The purpose of the invention is to intensify the process of air humidification. The goal is achieved by the fact that in a device for humidifying a gas stream containing a vertical chamber with inlet and outlet air nozzles located in its lower and upper parts, respectively, located in the chamber, a dropping moisture meter and a drainage fitting, the chamber has the shape of a cone, expanded from the inlet to the outlet, and the nozzle is installed with the possibility of axial movement on the side surface-. cages are made inclined slots. The drawing shows a diagram of a device for humidifying a gas stream. The device for humidifying the gas flow contains a vertical chamber 1 with lower and upper parts placed in a fee, respectively, inlet and outlet air nozzles .2 and 3, located in chamber 1 of nozzle C, drip moisture meter 5 and drainage nozzle 6. Chamber 1 is shaped the cone expanding from the inlet to the outlet, and the nozzle is installed with the possibility of axial movement. On the side surface of the nozzle k, inclined slots 7 are made. The nozzle is a float, with the upper face of the float having the most cross-sectional surface, solid and facing the expansion of the cone of the chamber, the size of the conicity of the chamber is within 1: 300-1: 100 The chamber is transparent and equipped with a scale of the air flow. The slits are made at an angle to the longitudinal axis of the camera. The dispenser includes 10 8 to itself a water supply pipe 8, a metering valve 9, a water supply pipe 10, a fungal seal 11 and a flexible connecting element 12. The feed pipe 10 is sealed in a fungal seal 11 and has the possibility of vertical movement along the longitudinal axis of the chamber 1. The device works as follows. The treated air through the pipe 2 enters the chamber 1 and raises the nozzle k (float) to a predetermined mark on the scale of the flow of the processed air. The feed tube 10 is displaced in the vertical direction so that the distance from its end to the top face of the nozzle in the flow of the treated air exceeds the height of the pseudo boil layer of the metered liquid in the flow of the treated air. For this, the pressure nut of the fungal seal 11 is loosened and the supply air line 10 is lowered or raised, which is easily accomplished due to the presence of the flexible connecting element 12 between the metering valve 9 and the flow pipe 10. Then the tube is sealed by pressing the pressure nut of the fungal seal 11. Visual inspection This operation is carried out through the transparent wall of the chamber 1. The dosing valve 9 serves to supply the required amount of liquid to the packing 4 (float), controlling the height of the column on the scale. Due to the presence in the water supply pipe 8 of water pressure exceeding the pressure of the air in chamber 1, and the corresponding flow {water supply pipe 10), the entrainment of condensed moisture into the process pipeline is excluded. The moisture coming from the supply pipe 1 O to the upper face of the nozzle 4 tends to flow from it into the gap by the upper face and the wall of the cone chamber 1. But the flow of the processed air, which has the highest speed in the mouth gap, does not allow moisture to flow into the gap . Practically, the surface of the chamber under the float is always dry, that is; the wall effect, which consists in breaking the water film along the chamber wall, is completely absent. When this occurs, a very intensive dispersion of the fluid layer in the gap and intensive mixing of the fluid layer over the nozzle with the air flow occurs. A pseudo is created

Claims (2)

1. A device for humidification of a gas stream, comprising a vertical chamber with inlet and outlet air pipes located in its lower and upper parts, a nozzle located in the chamber, a dropper of moisture and a drainage nozzle, characterized in that, in order to intensify the process of humidification of air, the chamber has the shape of a cone, expanding from the inlet to the outlet, and the nozzle is mounted with the possibility of axial movement. 2. The device according to p. ^ Characterized in that the inclined slots are made on the side surface of the nozzle.