SU1426613A1 - Vortex deaerator for liquid - Google Patents

Abstract

The invention relates to devices for degassing liquid media and can be used in the chemical and other industries. The aim of the invention is to increase the degree of degassing of the liquid. The vortex degasser contains a cylindrical perforated case equipped with a coaxial body located with a gas supply pipe and a stop with a U-regulating valve, tangential nozzles for introducing a degassed liquid and draining the degassed liquid. Last communicated with the pipeline drainage through a centrifugal pump. The degasser contains a central outlet of the gas outlet, 11 |) and this inner cylindrical surface of the degasser body is made with structural elements organizing a stalling current, and a diffuser is installed at the outlet of the central outlet. Structural elements, organizing a stall, made in the form of projections of a triangular shape with an acute angle at the vertex and are located with the same pitch along the perimeter along the generators. 1 hp f-ly. 2 Il. about.

Description

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The invention relates to devices for the degassing of liquid media and can be used in chemical and other industrial processes.

The value of the invention is an increase in the degree of fluid degradation.

Fi1 1 shows a vortex degasser; 1К (), full, full; sectional; in fig. 2 a section A-A in FIG. one. ; VikhrSEK) a liquid degasser contains a cylindrical 1 with tangential interconnections 2 inputs of a degassed liquid and 3 discharges ds1 azirovnogo liquid. The nozzle 3 is connected to the pipe of the outlet of the liquid by means of an electrolytic pump (not shown). In the case there is installed a central pipe and an inlet 4 for the extraction of evolved gas. The body of the degasser B1) 1 is wave 11 and is not perforated with openings. Moreover, the diameter of the holes 5 of the perforation; 1; c1 of the cornea is increased to nairav; 1enii uiM / K (4HUi liquid flow. The casing 6 connected to the supply system | -aza through the pipe 7, equipped with 1C) a normative-regulating valve 8. On the inner cylindrical surface of the Cornus with the same step, but non-metering, the projections are 111- 1 9 triangular in shape with an acute angle n) and BefMimiie. A vortex diffuser 10 d is installed at the outlet of the central nozzle 4. 1 OTiux Ui is a separate outlet.

The vortex liquid degasser works ate with blowing.

The degassed liquid enters the device through the tangential pressure tube 2 and acquires a twist. At the same time, the circumferential speed increases in relation to the axis of cylindrical corus 1, and pressure builds up. A gas eetholb 11 is formed along the axis of the cylindrical Cornus 1. The gas is fed through the holes 5 into the interior of the Cornus 1 by creating an overpressure in the casing 6. Controlling the flow rate of the gas from the gas outlet valve 8 installed on the casing nipple 7 ( ). The feed gas is blown off from the walls in the form of nodules and the iodine of the centrifugal pressure is not moving forward; 1 is in the () and axial zone. Since the tangential natureduk 3 of the outlet. The aerated liquid is connected to the suction magnetic pump of the centrifugal pump, thanks to this, a low level of 15 is eliminated. 1e11 not on the inside web

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Cusus 1 degasser. The concentration of dissolved gas on the surface of the supplied bubbles is lower than the concentration of dissolved gas in the liquid, as a result of which, as it moves, they absorb the gas dissolved in the liquid. The feed gas, together with the gas released from the liquid, is removed from the axial zone through the pressure pipe 4 and the swirl diffuser 10.

The installation of the protrusions 9 on the internal cylindrical surface of the protrusion ensures the disruption of the flow of the liquid in the nistopenochny region with the add. a dramatic decrease in pressure in the zones of stalling (turbulence) and, accordingly, an increase in gas evolution from the liquid, which ultimately leads to an increase in the degree of fluid degassing.

The installation of the diffuser 10 at the outlet of the center; 1 intake pipe of the gas outlet allows you to create a stable vacuum core, since the diffuser does not prevent the return currents of air from the medium into the gas column 11 and, moreover, provides a significant reduction in pressure in the axial zone.

Thus, the proposed degasser makes it possible to increase the degree of degassing in comparison with the known n) and equal pressures at the outlet to the vortex chamber.

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Claims (2)

1. A vortex liquid degasser containing a cylindrical body with tangential inlets of a degassed liquid and a drainage of degassed liquid, the latter being connected to the pipeline of liquid withdrawal by a centrifugal pump, the central network of the gas outlet coaxially perforated casing with gas nozzle pipe and valve-regulating valve: 1, which, in order to determine the degree of liquid degassing, the inner lateral surface of the body is made with protrusions fluid flow, while the device is equipped with a diffuser mounted on the central gas outlet. 2. The degasser according to claim 1, characterized by a tsm that the protrusions are made of a triangular shape with an acute angle at the apex and are located along the corners forming c in the same step. eleven FIG. R