SU1220701A1 - Gas-liquid separator - Google Patents

Description

12207П1

2. The separator according to claim I, t is equipped with a conical bell, which is distinguished by the fact that the coupling is set out under the guide end of the chamber.

The invention relates to a technique for the separation of dispersion media, in particular, to apparatus for cleaning a liquid from impurities using a gaseous releasing agent, and can be used in water preparation and purification of wastewater from various industries.

The purpose of the invention is to increase the cleaning efficiency by eliminating the vertical circulation of the flow. The drawing shows a gas-liquid separator, a general view.

The separator contains an ejector 1 with nozzles 2 and 3 for supplying the treated liquid and gas, respectively, to the mixing chamber 4 with the tangential guide apparatus 5 at the exit end of the mixing chamber 4 placed inside hydrocylone -6. In order to maintain a constant gas concentration in the treatment zone of the liquid, a conical bell 7 is attached to the end of the mixing chamber end. The hydrocyclone is also equipped with a flow regulator 8 and outlet nozzle 9. The nozzle 10 for removing the impurity concentrate is located along the axis of the ejector

The separator works as follows.

The processed liquid under pressure is fed through the nozzle 2 into the receiving chamber of the ejector 1, from where through the nozzle with great speed it enters the mixing chamber 4, sucking gas through the nozzle 3 and the A. Lezhnin editor

Compiled by B. Tsh-goshkov

Tehred M. Hodankch Proofreader M. Sharoshi

Order 1511/7 Circulation 517 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d. 4/5

Branch PPP Patent, Uzhgorod, ul, Proektna, 4

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shiva smiling with him. From the mixing chamber, the gas-liquid mixture through the tangent directions of the apparatus 5 enters the hydrocyclone 6, where, due to large tangential stresses in the axial zone of the vortex flow, the gas is intensively dispersed into the smallest bubble. Under the action of centrifugal forces, the fluid is thrown to the walls of the body of the hydrocyclone, and the bubbles move to its axis. In this way, countercurrent movement of the liquid and bubbles is created, which contributes to the effectiveness of the separation of impurities. The gas bubbles with trapped impurities, passing along the guide vane 5 to the end of the mixing chamber 4, enter the pipe 10 and are removed from the separator. The treated liquid is discharged through the spraying apparatus 8 and the nozzle 9.

The advantage of the gas-liquid separator is that the treated liquid enters the zone of the highest intensity of capture of impurities by puffing gas with a maximum surface, while maintaining the optimum volume concentration of the gas phase in the medium. The conical socket reliably maintains an optimal ratio of the velocities of the liquid and gas bubbles and prevents the formation of harmful vertical circulation of the flow, which negatively affects the efficiency of the cleaning fluid.

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Claims (2)

1. A GAS-LIQUID SEPARATOR containing a hydrocyclone with nozzles for discharging liquid and concentrate, an ejector with a mixing chamber, located coaxially above the hydrocyclone, nozzles for supplying the processed liquid and gas, characterized in that, in order to improve cleaning efficiency, the outlet end of the mixing chamber is provided with a tangential guide apparatus and is located coaxially inside the hydrocyclone. SU „..1220701> 2. The separator by π. I, is equipped with a conical bell, distinguished by the fact that it is secured under the guiding end of the mixing chamber with an apron.