RU1839162C - Highly volatile fluid storage unit - Google Patents

Description

the 1st valve 8, which acts due to the differential pressure with the atmosphere, is designed to discharge liquefied gas vapors at a pressure exceeding that allowed for the other parts of the Dewar vessel 7, and the discharge pipe 11 goes into the coil 12, connected to its other end with located in the gas space of the tank 1 with a spray device 13 consisting of. for example, from an annular pipe and nozzles 14.

The device for storing volatile liquids operates as follows.

Cold vapors continuously evaporating liquid nitrogen in the Dewar vessel 7 ps through the action of overpressure through the control valve 8, through the pipe 11 and SNeevik 12, through the nozzles 14 of the spray device 13 enter the gas nf of the tank 1, along with cooling dg coil 12 and its surrounding simple element in the housing 2 of the vapor condensation device, in which it supports by means of continuous cooling with nitrogen; lower than in tank 1, those are lepertura. The liquid nitrogen passage ho patrueku 9 in this case is closed by valve 8,

When the overpressure in the f reservoir 1 is increased to a value somewhat lower and the response pressure of the respiratory clan 6, i.e. the beginning of the exhalation (for example, when the atmospheric pressure is lowered), the epane 8 closes the steam line and opens the liquid nitrogen line, which goes through the nozzles 9 and 11, through the coil 12 (o / time cooling it) enters the: dust device 13 the nozzles 14 of which are sprayed in the gas space of the tank 1. Droplets of liquid azate during the fall in the gas space of the tank cool it and condense the vapor of the stored liquid. The condensate, which has a lower temperature than the liquid of the near-surface spruce, irrigating the latter, additionally expects it to cool, and evaporated in the course of the fall -) and nitrogen enters the cold layer, which is slightly south of the surface of the liquid in

in the form of cold steam. This protective layer effectively prevents liquid evaporation.

With a further increase in pressure 5 in the tank 1 to the exhalation pressure (for example, when the tank is full), the breathing valve 6 opens the vapor-gas mixture from the tank 1 into the body 2 of the condensation device, where it is cooled and condensed on the inner surface of the body and the coils of cooled to the liquid nitrogen temperature of the coil 12 (the liquid nitrogen line is open, the liquefied gas enters the tank, lowering

5 temperature and pressure). The gas mixture purified from the vapors of the stored product escapes through the nozzle 4 into the atmosphere, and the condensate is drained into the tank 1 through the nozzle 5.

0 When a vacuum is formed in the tank 1 (for example, when pumping liquid or increasing atmospheric pressure), an inhalation occurs, valve 8 opens a line of liquid nitrogen.

5 Due to the increase in pressure drop (vacuum in tank 1 plus excess pressure in the Dewar vessel 7), the maximum supply of nitrogen to the tank 1 occurs, as a result of which the pressure in it is equalized to the ambient pressure.

At the same time, the entry into the gas space of the reservoir of atmospheric air (as well as moisture and dust) with the oxygen contained therein is substantially reduced.

5 increasing the degree of fire safety, accelerating the corrosion processes of the tank and worsening the quality of the stored products due to oxidation.

Thus, the proposed invention, in comparison with the prototype, provides a higher degree of reduction in evaporation losses,

(56) 1. USSR Copyright Certificate 5 No. 1024391, cl. B 65 D 90/30, 1982.

2. USSR author's certificate No. 574362, cl. B 65 D 90/30, 1978.

3. Copyright certificate of the USSR N 1830867, cl. B 65 D 90/30, 1988.

Claims (2)

1. INSTALLATION FOR STORAGE OF EASY-EVAPORATING LIQUIDS, containing a tank with a vapor condensation device located below it, consisting of a thermally insulated body with nozzles for entering and exiting the vapor-gas mixture and draining the condensate and the Dewar vessel installed inside its vessel, characterized in that that, in order to increase reliability in operation, it is equipped with a coil located in a thermally insulated housing and a control valve, which through the inlet pipe is connected to the upper part of the Dewar vessel, another inlet pipe is located in front of the bottom of the Dewar vessel, and the outlet pipe is connected to the inlet section of the coil, while the outlet section of the coil is connected to the upper part of the tank, and the breathing valve is installed on the inlet pipe of the gas-vapor mixture. 2. Installation according to claim 1, characterized in that it is equipped with a spraying device mounted on the outlet {section of the coil inside the tank, made in the form of an annular pipe with nozzles and.