SU1567845A1 - Cryogenic reservoir - Google Patents

Abstract

The invention relates to the field of cryogenic engineering, in particular to the construction of tanks for the storage and transportation of cryogenic liquids. The purpose of the invention is to reduce the loss of cryogenic liquid during its storage in a spherical tank. The tank contains a shell and an inner vessel, separated by a layer of thermal insulation, and means placed in the inner vessel to eliminate the stratification of the cryogenic liquid in the form of a metallized heat insulating disk. The means for eliminating stratification is provided with a spiral, one end of which is attached to the disk, the other to the vessel, and the disk is placed in the center of the spiral. Additionally, the tool contains a cradle for fixing the helix. When the fluid level decreases, the disk with the helix is lowered and the peripheral turns of the helix are placed on the cradle. As the fluid level increases, the helix disk rises. Thus, at any level of fluid in a spherical reservoir, the area of the means for eliminating stratification corresponds to the surface area of the fluid. 1 hp f-ly, 1 ill.

Description

The invention relates to cryogenic engineering, in particular to the construction of tanks for the storage and transportation of cryogenic liquids.

The purpose of the invention is to reduce the loss of cryogenic liquid during its storage in a spherical tank.

The drawing shows a spherical tank, a longitudinal section.

A cryogenic tank contains a casing 1, an inner vessel 3 placed in it to form a heat insulating cavity 2, and means for eliminating stratification of a cryogenic liquid, including a cradle 4. helix 5 and a metallized heat insulating disk 6. The cradle 4 is placed on the inner surface of the vessel 3 and can be made solid, allowing to lay spiral

over the entire length, either consisting of separate sections of a certain length, or made in the form of hooks, on which the peripheral turns of the helix 5 are laid. In space, the cradle 4 is a spiral helix with an increasing diameter to the centerline of the reservoir when and in plan it completely repeats the configuration of the spiral 5.

The disk 6 is placed in the center of the spiral 5 and one end of the spiral 5 is attached to it pivotally, the other end of which is attached to the vessel 3 at the point of the maximum area of the liquid mirror. The coil 5 is made of the same material as the disc 6. The diameter of the disc 6 is chosen such that when the reservoir is full, the disc 6 covers the entire liquid surface.

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The tank works as follows.

The peripheral turns of the helix 5 when the vessel 3 is not filled with cryo-liquid is placed on the bed 4 by its own weight. When the cryogenic liquid is stored, the reservoir is not completely filled (approximately 90% of the volume), while the helix 5 with the disk 6 rises into the upper part of the vessel 3 and the disk covers the entire liquid mirror, and the helix is placed on the upper part of the lodgement 4. the reservoir is half full, the surface area of the liquid is maximum. A part of this area covers the disk 6, the remaining part covers the turns of the spiral 5. When the liquid level decreases, the disk with the helix lowers and the peripheral turns of the helix are laid on the cradle. As the fluid level increases, the disk with the helix rises, however, the lodging prevents the emergence of peripheral – helix helixes. At any liquid level, the area of the stratification tool corresponds to the surface of the liquid mirror.

Thus, the introduction of the proposed remedy to eliminate the stratification of a cryogenic fluid into a spherical

the reservoir allows tracking the change in the surface area of the liquid mirror, which ensures a significant decrease in heat leakage to the liquid surface and. therefore, its volatility.

Claims (2)

1. A cryogenic tank containing a casing and an inner vessel separated by a heat insulating layer and means placed in the inner vessel to eliminate the stratification of the cryogenic liquid, made in the form of a metallized heat insulating disk placed on the liquid surface, in order to reduce loss of cryogenic liquid during its storage in a spherical tank; the means for eliminating stratification additionally contains a spiral attached at one end to the disk, the other to the vessel, and the disk placed in the center of the helix. 2. The reservoir according to claim 1, wherein it is equipped with a lodgment attached to the inner surface of the vessel in order to secure the fixation of the helix.