RU2131286C1 - Liquid degasifier - Google Patents

Abstract

FIELD: degassing of liquids in all industries. SUBSTANCE: degasifier includes housing, inlet and outlet branch pipes, gas discharge passage and spreading device rigidly connected with inlet branch pipe by means of metal plates. Inlet branch pipe is provided with slots of different length and is separated from inlet pipe line by means of bellows located inside housing. EFFECT: enhanced efficiency of degassing of liquid; avoidance of special-purpose vibrodrive; facilitated manufacture; ease in use; enhanced operational reliability; simplified construction. 5 cl, 2 dwg

Description

 The invention relates to techniques for degassing liquids and can be used in all branches of technology where the removal of soluble gases from liquids is required.

 A device for treating a liquid with acoustic vibrations during degassing is known, comprising a housing with a tangential inlet pipe, a cylindrical channel and outlet openings in front of which a resonator is located, the device being provided with a housing with a drain pipe, the housing is housed in the housing, and the housing outlet openings are tangential (SU 1072871 A, CL B 01 D 19/00, 1984).

 This device is not effective enough for degassing relatively viscous fluids, requires high speeds of the processed fluid, is not technologically advanced to set up, and not reliable in operation.

 Closest to the claimed device is a device for removing gas from a liquid, comprising a container, a liquid supply pipe, a desorption gas supply pipe, a porous conical baffle, a conical plate, a horizontal baffle, a flow distributor, degassed liquid and gas outlet pipes, a vibratory drive connected to the plate (SU 1161134 A, CL B 01 D 19/00, 1985).

 This device is not effective in the degassing of relatively viscous liquids, requires an additional vibration device with a drive.

 The aim of the invention is to simplify the design of the device, increase the manufacturability and operation, increase reliability and increase the efficiency of gas separation, the exclusion of a special vibrodrive.

 This goal is achieved by the fact that in a liquid degasser containing a housing with a supply pipe, an inlet and an outlet nozzle for a liquid, a gas outlet channel and a spreader, according to the invention, the inlet nozzle is made with longitudinal cuts of various lengths, is rigidly connected to the spreader and communicates with the inlet through the bellows the pipeline, while the bellows is located inside the degasser body.

 Comparative analysis with the prototype shows that the claimed solution is characterized in that the inlet pipe is rigidly connected to the spreader, made with longitudinal sections of various lengths; the inlet through the bellows communicates with the supply pipe; The bellows is located inside the degasser body.

 Thus, the claimed degasser meets the criterion of "novelty."

 Comparisons of the invention not only with the prototype, but also with other well-known solutions did not allow to identify in them the features that distinguish the claimed solution from the prototype, which allows us to conclude that the criterion of "inventive step".

 The invention is illustrated by drawings, where in FIG. 1 shows a front section of the device, and in FIG. 2 - enlarged end of the inlet pipe and the spreading device.

 The degasser comprises a housing 1 with a supply pipe 2, an input 3 and an output 4 nozzles, a bellows 5, a spreader 6, metal plates 7, a gas exhaust channel 8.

 Liquid degasser works as follows. The degassed liquid enters the housing 1 through the inlet pipe 2 into the inlet pipe 3 and spills onto the spreader 6. The presence of longitudinal sections of different lengths at the end of the inlet pipe creates a group of vibration elements with the possibility of vibrating each of them with a different frequency depending on the length of the vibration element. Spilling onto the spreading device, the flow of degassed liquid initiates vibrations of vibration elements with a wide range of frequencies, which forces the outlet pipe, which oscillates at its natural frequency, to enter the resonant mode of vibrations with the accompanying vibration processing of the liquid in the zone of the inlet pipe, which in turn initiates the release of gas bubbles.

 Different-frequency vibrations of the inlet pipe are transmitted through metal plates 7 to the spreading device 6, which also oscillates with its own frequency and represents an additional resonator with the possibility of vibration in the resonant mode. The liquid spilled on the spreader is subjected to additional vibration processing, which contributes to a more uniform spreading, a decrease in the thickness of the liquid layer and intensive degassing.

 Part of the flow, passing through the slit sections of the inlet pipe, initiates cavitation when passing through the latter, which enhances the effect of degassing.

 The released gas is discharged through the gas exhaust channel 8. Degassed liquid leaves through the outlet pipe 4.

 The proposed design of the degasser while increasing the efficiency of degassing due to vibration and cavitation effects avoids the use of a separate vibrodrive with associated design complications. Vibration elements of various lengths at the end of the inlet nozzle can automatically hold the resonant mode of processing the jet of degassed liquid at a wide flow rate of the latter, which contributes to reliable operation and degassing without any additional adjustment and adjustment.

 The device is easy to manufacture, allows significant errors in the initial setup and design. The presence of a bellows inside the body of the device does not allow vibrations to pass through to the body, which allows using an ordinary method of fastening and avoiding noise effects.

Sources of information
1. USSR author's certificate N 1072871, B 01 D 19/00, publ. Bulletin of inventions N 6 1984

 2. USSR Author's Certificate N 1161134, B 01 D 19/00, publ. Bulletin of inventions N 22 1985 / prototype /.

Claims (5)

 1. A liquid degasser, including a supply pipe, a housing, an inlet and an outlet pipe for liquid, a gas exhaust channel, a spreading device, characterized in that the inlet pipe is made with cuts, is rigidly connected to the spreading device and communicates with the supply pipe via a bellows.  2. The degasser according to claim 1, characterized in that the cuts at the inlet of the nozzle are made longitudinal.  3. The degasser according to claims 1 and 2, characterized in that the cuts are made of various lengths.  4. The degasser according to claim 1, characterized in that the inlet pipe is rigidly connected to the spreader with metal plates.  5. The degasser according to claim 1, characterized in that the bellows is located inside the degasser housing.

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