SU1631224A2 - Cryogenic liquid storing unit - Google Patents

Abstract

The invention is intended to store cryogenic liquids and is a further invention to a. with. USSR No. 842331 The proposed design makes it possible to increase the mixing efficiency by increasing the average speed of the mixer or by increasing the amplitude of its oscillation. The device comprises a vessel partially filled with a liquid with a steam pillow above the mixer and a mover for it during the like. made in the form of a tank with them and formed walls and a bottom condenser, equipped with a pipeline, tp. Into the tank of a gaseous working tol. Additionally, deformed and operating with a compression bottom and a strainer are placed in the vessel capacitance capacitance lower and upper trigger devices The most robust design of the trigger devices is in the form of permanent magnets that interact with a permanent magnet connected to the bottom of the capacitor and placed near the lower and upper points of the position of the bottom of the tangential cone 1 z p ply, 1 or

Description

The invention relates to the field of cryogenic engineering and can advantageously be used for the storage of cryogenic liquids.

The aim of the invention is to increase efficiency by increasing self-oscillations and increasing the average speed of the mixer between extreme positions and increasing the amplitude of the mixer's oscillations.

The drawing shows the proposed device, a General view

An example of a specific embodiment can serve as a device containing a vessel 1, partially filled with liquid 2 with a steam cushion 3 above it, a mixer 4 and a propeller for its drive, made in the form of a vessel 5 with elastic deformable walls and a bottom-condenser placed in the steam cushion of vessel 3 equipped with a pipeline 7 with a shut-off valve 8 for supplying the working fluid to the container 5 (gas1 In VOCS i.a. na the power posts 9 are displaced, on which the top 10 and bottom 11 permanent magnets are fixed, and a permanent magnet 12 is fixed to the bottom 10-12 face each other with opposite pots. The device works barely SHOCKING. After supplying the working gas through the wire 7 and the valve 8 with the temperature exceeding its temperature, the capacitance is deformed and the shorter 6 occupies the lowest position, the magnets 11 b m pressed to the magnets 12 After closing the valve 8, the working gas begins to condense, which can serve as a controlled fluid 2 As the pressure rises into a container of 5 lows and the pressure of the container increases

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As this force increases, first the bottom 6 is held by the force of attraction of the magnets P and 12, and then, after exceeding this force, the force of attraction of the magnets 11 and 12, the magnets 12 are detached from the magnets 11 and the bottom with the mixer 4 rises. After the magnets 12 have reached the magnets 10, the process of evaporation of the liquid condensed on the bottom and the increase of pressure in the tank 5 begins.

When the capacity of the expansion capacity reaches a value greater than the force of interaction of the magnets 10 and 12, the magnets 12 are detached from the magnets 10 and the bottom of the mixer begins to move downwards. After the bottom has reached the bottom point, the magnets 11 and 12 interact and the process resumes.

Compared with the prototype, the proposed device has greater efficiency, since the force with which the mixer begins to move at the extreme points is greater than in the prototype, therefore, with the same design of mixers, the speed

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fluid entrained with a mixer, higher than in the prototype. Therefore, the mixing of the liquid will occur more efficiently. In the proposed device, a large oscillation amplitude can be achieved, which also contributes to an increase in the efficiency of mixing.

Claims (2)

1. The device for storage of cryogenic liquids according to ed. St. No. 842331, characterized in that, in order to increase efficiency by enhancing the self-oscillations of the capacitance, it is additionally equipped with release devices located respectively in the extreme upper and lower positions of the bottom of the capacitor. 2. A device according to claim 1, characterized in that the release devices are made in the form of permanent magnets, wherein the bottom capacitor is provided with a permanent magnet.