RU2024281C1 - Apparatus for degasification liquid - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: apparatus has case, vacuum pump and systems for supplying liquid and discharging liquid and gas. The vacuum pump is made of a hose additional case and tore. The hose is secured in the first case from one side and on the additional case from the other one. A driving reverse drum, whereon a belt is wound, is received in the second case. The tor is arranged on the belt. The first case is in communication with the second one through a pipe provided with a heater. The tank filled with liquid is in communication with spaces formed with the hose and first case through openings. EFFECT: enhanced efficiency. 1 dwg

Description

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

 The closest in technical essence is a device for degassing liquids, which contains a working housing, a vacuum pump and a system for introducing liquid and for removing liquid and gas.

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

 In a device for degassing a liquid, comprising a housing, a vacuum pump and systems for supplying liquid and discharging liquid and gas, according to the invention, the vacuum pump is made in the form of a sleeve, an additional housing with a container and a torus, where the sleeve is fixed on the one hand in the first housing and on the other on the additional case. The additional housing has a container with liquid, which is communicated through openings with cavities formed by the sleeve and the first housing. In addition, the additional capacity, with the help of a tape, is connected to the drive reversing drum, which is located in the second housing.

 The first and second buildings are interconnected by a pipe with a heater. A torus is installed on the tape, and the first case is equipped with liquid and gas supply and discharge systems.

 If the sleeve, the additional housing and the torus move to the left, into the cavity between the sleeve and the first housing, then the fluid in this cavity is compressed. The pressure in it increases and gas bubbles are released from the liquid, which increases the efficiency of degassing the liquid.

 When the sleeve system, the additional housing, and the torus exit the cavity and move to the right, a vacuum is created in the cavity between the sleeve and the first housing. The pressure drops. The fluid in the cavity boils. Intense release of gas bubbles from the liquid occurs, as in the container located in the additional housing, when the heaters bring the water in it to a boil. All this helps to increase the efficiency of fluid degassing.

 The drawing shows a General view of the device.

 The device consists of housings 1, 2 (first and second), interconnected by a pipe 3 with a heater 4. The cavity 5 is in communication with the fluid supply system 6. The cavity 7 is in communication with the gas removal system 8 and with the liquid removal system 9. In the second case, a drive reversing drum 10 with a tape 11 is installed, which is connected to an additional case 12 with a capacity of 13. The container 13 is in communication with a cavity 5 through an opening 14, and with a cavity 7 is communicated through a hole 15. A torus 16 is installed on the tape 11. Sleeve 17 mounted on the housing 12 and the housing 1.

 The device operates as follows.

 The system 6 serves the fluid in the cavity 5. The sleeve 17 moves from the cavity 5 to the cavity 7, displacing the gas into the system 8, and the liquid into the system 9. Part of the fluid from the tank 13 through the hole 15 enters the cavity 7. Then the drum 10 is rotated in the opposite direction . The housing 12 and the sleeve 17 and the torus 16 are returned to their original position. In the cavity 7, a vacuum is created. The liquid boils and gas is released from it, which fills the cavity 7. The liquid in the cavity 13 is heated by the heater 4. From the cavity 5, the liquid is displaced through the openings 14, 15 into the cavity 7.

 When the sleeve 17, the housing 12 and the torus 16 enter the cavity 7, the fluid in the cavity 7 is subjected to high pressure. The pressure in the fluid rises. Bubbles of gas are intensively released from the liquid, which increases the efficiency of degassing the liquid. The liquid in the tank 13 boils and the same separation of gas bubbles occurs. When the sleeve 17, the housing 12 and the torus 16 exit the cavity 7 under the action of the drum 10, a vacuum is created in the cavity 7. The fluid in the cavity boils, i.e. the pressure drops sharply. Intense release of gas bubbles from the liquid occurs, which increases the efficiency of liquid degassing.

 The inventive 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 improves the productivity of the device due to the continuity of the process, as well as reduce energy costs, in addition, it allows to simplify the design.

Claims (1)

 A device for liquid degassing, comprising a housing, a vacuum pump, a fluid supply system and a liquid and gas outlet, characterized in that the vacuum pump is made in the form of an additional housing connected by a tape to a drive reversing drum mounted in a second housing that is connected to the first the housing using a pipe with a heater, a sleeve fixed by the ends on the first and additional buildings, a torus mounted in the pipe on a tape, and the additional housing is made with holes communicated with the floor awns between the sleeve and the first body.

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