RU2035960C1 - Apparatus for degassing liquid - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: apparatus has housing, vacuum pump, and systems for supplying liquid and discharging liquid and gas. The vacuum pump is constructed as three hoses. One ends of the hoses are wound on the driving reverse drum using a rope. The other ends are secured in the second chamber. A drum is also mounted inside the second chamber. The two other hoses are secured in the first and third chambers having local constrictions, the torus-like housing being constructed as three chambers. The space of the first chamber is in communication with the systems for supplying and discharging liquid. The space of the second chamber is filled with a fluid. The space of the second chamber is in communication with the system for discharging gas through a valve. The first and second chambers are in communication with mentioned system through pipes. In addition, the spaces of the first and third chambers are in communication with the system for supplying a working agent. EFFECT: enhanced efficiency. 1 dwg

Description

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

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

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

 The drawing shows the proposed device.

 The device consists of a toroidal housing 1 with cameras: first 2, second 3, third 4. In chambers 2 and 4 there are local constrictions 5 and 6, in which the ends of the sleeves 7.8 are installed on the hoses 7 and 8 of the torus 9, 10. In the chamber 3 is installed a reversible drive drum 11 with a wound cable 12, which is connected to the sleeve 13. The ends 14 of the sleeve 13 are fixed in the chamber 3. The cavity 15 of the chamber 3 is filled with compressed fluid. The chamber 2 is in communication with the fluid supply system 16 and with the fluid discharge system 17. The gas exhaust system 18 is connected through the valve 19 to the chamber 3, and by pipes 21 to the chambers 2 and 4. The cavities 22 and 23 through the valve 24 are in communication with the working agent supply system 25. Cavities 26 and 27 are in communication with the working agent supply system 28.

 The device operates as follows.

 The drum 11 is rotated. The sleeves 13 enter the chamber 3. The system 25 feeds the working agent into the cavity 22, removing it from the cavity 23. The cavity 22 increases and the cavity 23 decreases. When the sleeve 7 comes off the opening of the system 16, this system 16 serves a portion of the liquid into the chamber 2. By the system 28, the working agent is fed into the cavity 26, removing it from the cavity 27. The cavity 26 increases and the cavity 27 decreases. When the sleeve 8 comes off the opening of the system 16, a portion of the liquid is introduced into the chamber 4.

 The drum 11 is reversibly rotated. Sleeves 13 exit the chamber 3, sucking gas from the chambers 2 and 4, which leaves the liquid. Sleeves 13 enter the chamber 3, squeezing the gas into the system 18, degassing the liquid.

 After degassing the liquid, the system 25 feeds the working agent into the cavity 23, removing it from the cavity 22. The cavity 23 grows, and the cavity 22 decreases. System 28, the working agent is fed into the cavity 27, removing it into the cavity 26. The cavity 27 grows, and the cavity 26 decreases. Sleeves 7 and 8 push the fluid into the system 17. After removing the fluid, the sleeves 7, 8 and 13 are returned to their original position and the cycle is repeated.

 When the sleeves enter the chamber 1, then they press on the fluid in the chamber. Fluid pressure increases. Bubbles of gas intensely exit the liquid, which significantly increases the efficiency of degassing the liquid.

 When the sleeves are returned to their original position or exit the chambers, a vacuum is created. The pressure drops. The liquid begins to boil. Intensive release of gas bubbles from the liquid occurs, 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 housing, a vacuum pump and a fluid supply system and a liquid and gas outlet, characterized in that the housing is toroidal and consists of three chambers, the first and third of which have local constrictions, equipped with a working agent supply system and connected to fluid supply and drain systems and with a gas exhaust system, the second chamber is equipped with a fluid supply system and connected to a gas exhaust system, the vacuum pump is made in the form of three arms, while the end of one arm is secured to the second the second chamber, the other end thereof is wound with a cable onto a drive reversing drum located in the second chamber, and the ends of two other sleeves are fixed in the first and third chambers.