RU2048852C1 - Device for the liquid degasification - Google Patents

Abstract

FIELD: chemical engineering. SUBSTANCE: device has a housing, a vacuum pump and the systems of the liquid supply and the liquid and gas outlet. The new feature of the device lies in the fact that the vacuum pump is made as a torus mounted in the housing cone. The torus is connected with the band wound on the drum placed into the cavity between the torus and the sleeve. One end of the sleeve is fastened on the housing cylinder. The other one is wound on the driving reversible drum by means of slings and the band. In this case the cone and the torus form a cavity which is in communication with the system of the gas outlet. The torus and the sleeve form a cavity which is in communication with the system of the liquid feed. Both these cavities are connected by a pipe having a non-return valve. Besides, the sleeve and the cylinder form a cavity which is in communication with the system of the liquid outlet. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to devices for degassing liquids and can be used in energy, mechanical engineering, chemical, food and other fields of national economy.

 A known apparatus for degassing liquids, which contains a working housing, a vacuum pump and nozzles for introducing liquid and drain liquid and gas.

 The disadvantage of this apparatus is the ineffective separation of the gas-liquid mixture.

 The purpose of the invention is to increase the efficiency of liquid degassing, due to the intense release of gas bubbles.

 The goal is achieved by the fact that in the device for degassing liquids containing a housing, a vacuum pump and a fluid supply system and a liquid and gas outlet, according to the invention, the vacuum pump is made in the form of a torus, which is installed in the cone of the housing. The housing consists of a cone and a cylinder. A sleeve is placed in the cylinder, one end of which is fixed inside the cylinder, and the other, through slings and tape, is wound around the drive reversing drum. Another tape wound on a drum is fixed in the torus. The drum is placed between the torus and the sleeve. A torus with a cone forms a cavity, which is in communication with the gas exhaust system. The cavity formed between the torus and the sleeve, communicated by the fluid supply system, and these two cavities are interconnected by a tube with a check valve. In addition, the cavity formed by the sleeve and the cylinder is communicated by a fluid drainage system.

 When a torus with a sleeve falls under the action of a drum, a vacuum occurs in the cavity between the cone and the torus. The pressure drops sharply. The fluid in the cavity begins to boil. In this case, an intensive release of gas bubbles from the liquid occurs, which increases the efficiency of degassing the liquid.

 If the torus with the sleeve rises, then in the cavity between the torus and the cone there is strong pressure on the liquid. The pressure in the liquid increases, gas bubbles separate from the liquid, which increases the efficiency of liquid degassing.

 The drawing shows a device for degassing liquids.

 The device consists of a cone 1 and a cylinder 2, which are a housing. The cavity 3 is in communication with the gas exhaust system 4, the cavity 5 with the liquid discharge system 6, the cavity 7 with the liquid supply system 8. Cavities 7 and 3 are interconnected by a pipe 9 with a check valve 10. In the cavity 7, a drive reversing drum 11 with tapes 12 and 13 is installed. The tape 13 is fixed in the torus 14. The tape 12 is connected via slings 15 to the end 16 of the sleeve 17. The end of the 18 sleeve 17 is fixed in the cylinder 2.

 The device operates as follows.

 System 8 delivers fluid into the cavity 7 at the moment when the torus 14 rolls off the opening of the system 8. The torus 14 and the sleeve 17 are moved down. In the cavity 3, a vacuum is created. Gas from the cavity 7 is sucked into the cavity 3. The gas exits the fluid in the cavity 7.

 When the sleeve 17 is lowered, then its end 16 will open. The fluid from the cavity 7 is discharged into the cavity 5, from which it is removed by the system 6. Then the sleeve 17 and the torus 14 with the drum 11 are moved up. The torus 14 squeezes the gas from the cavity 3 into the system 4. When the torus 14 releases the opening of the system 8, the liquid will again begin to flow into the cavity 7. The cycle repeats.

 When the torus with the sleeve is lowered, a vacuum is created in the cavity 3, the pressure decreases. The fluid in the cavity boils. Then there is an intensive evolution of gas bubbles, which leads to an increase in the efficiency of liquid degassing.

 If the torus with the sleeve rises, then the liquid in the cavity 3 exerts a lot of pressure from the torus 14. The pressure in the liquid rises, a large amount of gas is released from it, which increases the efficiency of liquid degassing.

 The proposed device provides increased degassing of the liquid by creating a low pressure, as well as due to the large pressure on the liquid.

 The use of the invention allows to increase the productivity of the device due to the continuity of the process, as well as reduce energy costs and simplify the design.

Claims (1)

 DEVICE FOR LIQUID DEGASING, comprising a cylinder-shaped housing, a vacuum pump and liquid and gas and gas discharge systems, characterized in that the housing is provided with a cone, the vacuum pump is made in the form of a torus mounted in the housing cone, a reversing drive drum wound thereon tapes and a sleeve placed in the cylinder of the housing, while one tape of the drum is connected to the torus, the other tape is equipped with slings and connected to the end of the sleeve, the other end of which is fixed inside the cylinder, the cone is in communication with the system cottages and liquid discharge gas, a cylinder in communication with the fluid extraction system and a tube connected with a check valve with a cone.

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