SU456305A1 - Gas volume compensator - Google Patents

Description

one

The proposed gas volume compensator can be used in the chemical, thermal power, nuclear, and other industries to compensate for volume changes in liquids in closed systems and to maintain pressure in them within certain limits. A gas that can be dissolved in a liquid is used as a damper in the volume compensator. To reduce the dissolution of gas in a liquid, the surface of their contact is minimized, for example, by installing an separation float.

Gas volume compensator with separating float is known. It includes a housing filled with water and partly gas, and a hollow sealed separating float.

A disadvantage of the known gas volume compensator is that the hollow hermetic float has positive buoyancy only at low pressures (up to 100 kgf / cm) and high density of liquids.

It is impossible to create a hermetic hollow float, and its positive buoyancy of high liquid pressures (200 kgf / cm and more) and its low density.

Unsealed floats are known in the form of vessels whose internal cavity communicates with a gaseous medium (for example, a metal boat in a normal position) or with a liquid (for example, a metal boat with an air bubble inside turned over). The first disadvantage is the possibility of loss of positive buoyancy as a result of filling them with liquid or condensate upon accidental cooling or condensation of moisture from the gaseous medium. The second drawback is the possibility of losing

positive buoyancy after dissolving the gas inside the float in the liquid. Therefore, unsealed floats are not used in closed systems.

The purpose of the invention is to provide stable positive buoyancy of the separating float of the gas volume compensator with high pressure of the liquid and low density thereof. The goal is achieved thanks

that the lower part of the internal cavity of the float is in communication with the gas cavity of the volume compensator. A recess is made in the bottom of the float body to prevent liquid from getting into the floss

and the channel extended into this recess.

The invention is illustrated in the drawing.

The gas volume compensator consists of a housing 1, a separating float 2, separating the liquid from the gas cavity 3. A pipe 4 is embedded in the float 2, the lower end of which enters the recess 5 in the bottom of the float, and the upper end is extended outside the float into the gas cavity. For the supply and discharge of liquid and gas into the volume compensator in the housing there are fittings 6 and 7, respectively. The float 2, which is in the liquid, is affected by the force of Archimedes. The pressure in the gas cavity 3 and inside the float is the same, 10 because they are connected by pipe 4, so the float is thin-walled. The volume of the float is chosen so that it has a significant margin of positive buoyancy. When condensation of steam inside the float or I 5 when it is accidentally flooded, the liquid enters the recess 5, forms a water lock and presses the gas in the filler 2. Thus, the surface for the condensation of the vapor is confined, the condensate with which flows 20 inside the float (only the inside of the pipe 5 remains) ). Further filling of the float ceases as a result of an increase in gas pressure inside the float. It is known that in a closed system 25 the pressure is unstable and fluctuates in a certain range depending on various factors. When the pressure in the gas cavity 3 decreases, the liquid is forced out of the cavity 5 of the float into the gas cavity and into the liquid. With increasing pressure in the gas cavity, the gas enters the float through the water seal. With the next decrease in pressure in the gas cavity, the liquid is again displaced by the liquid, 35 seconds, if it is there. Thus, if a significant amount of liquid enters the float, then, with pressure fluctuations in the gas volume compensator, it is displaced from it and drained into the liquid, 40 practically without deteriorating its buoyancy. As a result, reliable positive buoyancy of the unpressurized po-smelting is ensured in a closed system. At high pressures of a fluid having a low density, under all possible modes of its operation. Subject of the Invention A gas volume compensator, preferably for low-density liquids at high pressures, comprising a housing and a hollow float with an aperture, characterized in that, in order to increase the float buoyancy, a recess is made in the bottom of the float, which communicates a cavity (float with a gas cavity volume compensator.