SU1269104A1 - Device for automatic keeping of level of cryogenic fluid - Google Patents

Abstract

A device for automatically maintaining the level of a cryogenic liquid relates to cryogenic and refrigeration technology and can be used to maintain the level of the refrigerant in a vessel with cooled objects. Placing the storage chamber of the device, ensuring that it is buried under a predetermined liquid level in a vessel equipped with a cryogenic liquid inlet pipe and a vapor discharge pipe, improves the speed of the device. t 1 il.

Description

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Claims (2)

O5 with The invention relates to cryogenic and refrigeration equipment and can be used to maintain the level of refrigerant in a vessel with refrigerated objects. The purpose of the invention is to increase the speed of the device. The drawing shows a device, a cut-out. The device for automatically maintaining the level of a cryogenic liquid has a thermally insulated vessel 1 for a cryogenic liquid and a storage chamber 2 coaxially installed in it, closed from the bottom and provided with a nozzle J for vapor discharge with shut-off member 4. To communicate the volumes of vessel 1 and cumulative chamber 2 are holes 5 in its lower part. The vessel cover 6 is provided with a nozzle 7 for filling a cryogenic liquid and a vapor discharge nozzle 8, as well as hatches 9 for installing cooled objects 10. The device operates as follows. The cryogenic liquid through the pipe 7 is poured into the heat-insulated vessel 1 and the storage chamber 2. The resulting vapors are discharged through the pipes 8 and 3 with the valve open 4. At the beginning of the working period, the valve 4 is closed. With a low level of liquid in vessel 1, the heat that penetrates into the collection chamber 2 from the lid of vessel 6 causes the liquid to evaporate and the pressure in the chamber increases. A portion of the liquid is pushed through the openings 5 from the storage chamber to the vessel 1. The liquid level in the vessel 1 rises and the storage chamber 2 is surrounded on all sides by liquid. In this case, the heat gain and the probability of vaporization in the accumulation chamber 2 are minimized and the level of liquid in the vessel 1 is stopped. Vapor bubbles formed on the inner walls of the vessel 1 due to heat inflows from the environment, do not penetrate into the storage chamber 2. The liquid level in the vessel 1 is automatically maintained above the storage chamber 2. The loss of cryogenic liquid from the heat leakage through the insulation of the vessel 1 is compensated for by the flow of liquid from the storage chamber 2. A gradual squeezing of the liquid from the storage chamber 2 occurs due to the evaporation of a certain amount of liquid in chamber 2 from heat leakages caused by heat circulation of cryogenic fluid in the gaps between the inner wall of vessel 1 and storage chamber 2. The volume of fluid is replaced by an equal volume com couple. The amount of heat that goes into the evaporation of a cryogenic liquid inside the storage chamber 2 at a constant level of liquid in the vessel 1,. equal to Q is the total heat input to the cryogenic fluid from the environment; L, RJ density of vapor and liquid in the state of pressure. The excess heat that penetrates into the accumulative chamber 2 is removed in the process of vapor condensation on the upper wall of the accumulation chamber 2, since the temperature of the vapor in the accumulation chamber 2 under the pressure of the hydrostatic liquid column above the liquid temperature above the accumulation chamber 2. Intensity the condensation process depends on the heat supply to the upper wall of the accumulation chamber 2 from the lid of the vessel 6 through the nozzle 3, which reduces the temperature head of the condensation, and is regulated by the thickness of the liquid layer and mounted above the upper wall of the collection chamber 2.. During operation, after closing the shut-off valve 4, the level of liquid nitrogen in vessel 1 is set, installed above storage chamber 2 and remains above the chamber as long as the fluid inside the storage chamber 2 is maintained. Maintaining the liquid level in the vessel above storage tank 2 allows installation and replacement of objects 10 without dismantling the lid, vessel 6 and the accumulating chamber 2. The loss of cryogenic fluid is thereby reduced. Apparatus of the Invention A device for automatically maintaining a level of a cryogenic liquid, comprising a heat-insulated vessel with a storage chamber coaxially installed in it with a vapor discharge port communicating with a heat-insulated vessel in which cooled objects are installed, a connection for flooding a cryogenic liquid characterized by In order to increase the speed of the device, the accumulation chamber is closed below, communicates with the heat-insulated vessel 44 of the holes in its lower part and is provided with a shut-off RGANI set to nozzle discharge vapor insulated vessel is provided with a conduit for cryogenic liquid bay, bone and fumes discharge nozzle and the collection chamber is set in heat insulation vessel with providing the recessed below a predetermined liquid level in the vessel.