DE1161924B - Container for storing or transporting a liquid gas at low temperature - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: F 25 j

Number:
File number:
Registration date:
Display day:

German class: 17g-4.

1161 924
C 24165 Ia / 17g
May 19, 1961
January 30, 1964

The invention relates to a container for storing or transporting a liquid gas at low temperature and at approximately atmospheric pressure with a rigid outer jacket, the is lined on the inside with a heat insulating material, as well as with one in the from heat-insulating jacket enclosed space arranged inner container, its side walls and the bottom of which is made of a thin flexible material and the one on the inner surface of the heat-insulating Materials are supported.

Many metals lose their strength and suppleness at low temperatures, e.g. B. at - 160 ° C in the case of liquid methane or natural gas. Therefore, those parts of the container which are in direct contact with the cold liquid must be used come from special metals such as special aluminum alloys or stainless steel exist. Since these metals are quite expensive and the containers are often large in size, one strives to use only thin metal layers.

The temperature of the container can vary between the ambient temperature in the empty and -160 ° C in the filled state fluctuate. As a result, one has to deal with significant stretches and contractions of the Calculate the inner parts of the container.

Liquid container with an inner tank, the unsupported side walls of which are made of more or less rigid material are known. A container with walls are made from a thin flexible membrane. This membrane is z. B. by gluing to the inner surface of the heat insulating material attached. Apart from the relatively cumbersome The removal of the inner tank for inspection or repair is hardly possible still possible. In another known container construction, the inner container is made of a relatively thin material a rather cumbersome and especially useful space consuming Wood construction necessary. These disadvantages are intended to be eliminated by the subject matter of the invention.

This is done by having the side walls and bottom on the rigid ceiling of the inner container are attached and supported by this, while the ceiling is attached to the outer jacket by means of it Support members or tension members from the deck structure of the outer shell is held.

The invention is explained in more detail by means of the drawings on the basis of several exemplary embodiments. It demonstrate

Container for storing or transporting a
liquid gas at low temperature

Applicant:

Conch International Methane Limited,

Nassau, Bahamas (UK)

Representative:

Dr.-Ing. F. Wuesthoff, Dipl.-Ing. G. Pulse and
Dipl.-Chem. Dr. rer. nat. E. Frhr. v. Bad luck man,
Patent Attorneys, Munich 9, Schweigerstr. 2

Named as inventor:
Katsuro Yamamoto, Tokyo

Claimed priority:
Japan May 21, 1960 (No. 24 843)
Japan June 23, 1960 (No. 28,640)
Japan, September 22, 1960 (No. 38 817)

F i g. 1 and 2 cross-sections of two different embodiments of containers according to the invention,

F i g. 3 and 4, in partial sections, two different constructions for supporting the rigid upper ones Inner tank wall and

F i g. 5 shows, in a partial section, a support that can be used in a container according to the invention for a pump.

The rigid outer shell 2 consists, for. B. made of steel and is on its inside with a lining made of a heat insulating material 6, e.g. B. made of balsa wood or quippo wood, which is for use is suitable at low temperatures. In the outer jacket 2, which is thermally insulated by the rigid Enclosed space an inner container 11 is arranged, which a rigid upper ceiling 10 attached to it flexible side walls 8 and one with the side

ten walls connected flexible floor 9 comprises. The rigid container cover 10 is through the rigid outer jacket 2 or supported by members attached to this. The flexible side walls 8 and the flexible floor 9 are supported by the inner surface of the heat insulating material 6. The side walls, like the bottom, are made of a metal v © a considerable strength at depths

309 807/102

point. Since the container ceiling 10 is rigid, however, the heat insulating material needs above the Ceiling does not have high compressive strength.

The shaft 17 can be rigidly connected to the deck structure 4 5. However, it can also be slidably arranged so that it is opposite the Deck structure 4 can move vertically.

If the container according to the invention is to be used in a ship, the rigid outer

Temperatures. To the metals suitable for this
include aluminum and stainless steel. So that the walls 8 and the bottom 9 one
If they are given sufficient flexibility, they should be sufficiently flexible
be thin-walled, for example in the form of foils.
The rigid cover 10 should also consist of a metal that does not retain its strength and flexibility at the low temperature of the liquid
loses; for example, the ceiling is made of aluminum. 2 it can be supported by the inner shell of a doppelwandiaus wood or other material of little _gen hull or through the bulkhead walls of the thermal conductivity at their edges by blocks 12 io coat. If required, additional blocks 13 can be formed on the ship in combination with the inner hull. Arrange the top of the ceiling 10. The blocks 12 and According to FIGS. 1 and 2, the rigid outer jacket 2 is

13 are formed on the inner surface of the rigid outer _{shell 15 a} i _s inner shell of a ship's hull, means 2 attached. Instead of the blocks 12 and 13, this inner shell extends parallel to an outer shell 1 with which it is rigidly connected to the ceiling 10 with ropes or chains.

14 hang up. Any rope or chain 14 is attached, however, it should be noted that the invention is such End connected to the rigid ceiling 10, probably on storage containers located on land as well while the other end on a deck structure betion 20 on ships for the transport of liquefied gases 4 is attached, which in turn pulls with the outer.

Sheath 2 is connected. It is the space 15 between the containers for storing liquefied gases

Container ceiling 10 and the deck structure 4, it is desirable to use a deep well pump which is coated with a heat insulating material, e.g. B. Glas- _{nane is arranged on the bottom of} the container and is filled with wool. An opening 16 is used for filling and as is used to empty the container. In the case of a container emptying the inner container 11, but also as _{according to} the invention, special measures must be taken for the outlet for the evaporation of the liquid filling in order to keep the pump close to the flexible vapors. The rigid ceiling 10 is to be supported with the bottom 9 of the inner container 11. Provided from a shaft 17 which is thermally insulated for this reason according to FIG. 5 a rigid underside of which material 18 is clad and provided on both the 30 support 19 for the pump. This lower ceiling 10 as well as the support 19 on the deck structure 4 is supported by a support block 20, which can be fastened. which in turn on a base 21 made of hardwood

Since the vertical walls of the container 8 ht 11 _ru. The support 19 and the support block 20 are beflexibel, they can be changes in temperature are made of a metal that its strength and Ge-expansion and contraction movements in ₃₅ suppleness not versenkrechter at very low temperatures direction. Corresponding movements loosely. The support block 20 and the pump support the rigid cover 10 are made possible by 19 _s i _n d of the inner container 11, the cover is supported in a special way on the flexible base 9, and _m jt means of an adhesive attached. The support block 20 that there is a margin at its edges. _we i _s t on its underside an extension 22 which

The inner container 11 may, as such, ready-40 \ _{n e} ine recess or groove on the upper side of the placed and then engages as a whole in the heat of the substrate 21, so that all enclosed in the pump chamber 2 insulated shell herabgelas- support 19 attacking forces that are on the be sen. It is also possible to remove the container 11 operation of the pump resulting movements or as a whole from this space, for. B. after vibrations and / or movements of the liquid for a certain period of use. In other words, due to the support block 20, the inner container can easily be checked before and after the support 21 and that it has sufficient strength before use. having outer jacket 2 are added

The side walls 8 and the bottom 9 of the inner the. It should also be noted that the pad 21 from Container 11 are made of hardwood as thin, flexible membranes, causing thermal insulation and thus verhinged and consist z. B. made of aluminum foil. This 50 changes that heat in the interior of the inner walls and the bottom are passed through the inner holder 11.

pressure of the container 11 firmly pressed against the inner surfaces of the heat insulating material 6.

Since the walls 8 and the bottom 9 of the inner container are flexible, the inner container could be 55 not maintaining proper shape unless the walls and floor are attached to the rigid ceiling 10 would be. In other words, the rigid container ceiling

10 prevents the inner container 11. 60 from collapsing

The walls 8 and the bottom 9 are preferably corrugated so that they are under the pressure in the container

11 can give way easily and can fit closely to the heat-insulating material 6.

The heat insulating material must be able to withstand 65 the weight of the liquid cargo in the inner container 11 to include. Therefore, the heat insulating material is required to have a fairly high compressive strength

Claims (13)

Patent claims: 1. Container for storing or transporting a liquid gas at low temperature and at approximately atmospheric pressure with a rigid outer jacket that is on the inside is lined with a heat insulating material, as well as with one in the from heat-insulating jacket enclosed space arranged inner container, the side walls and the bottom of which are made of a thin flexible material and those on the inner surface of the heat insulating material are supported, characterized in that the side walls (8) and the bottom (9) on the rigid ceiling (10) of the inner container (11) are attached and supported by this, while rend the ceiling (10) from the outer shell (2) by means of supporting members (12, 13) attached to it or held by the deck structure (4) of the outer shell (2) via tension members (14) is. 2. Container according to claim 1, characterized in that the outer jacket (2) at its Provide inner surfaces with blocks (12) made of a material of low thermal conductivity is, which support the ceiling (10) of the container (11) at their edges. 3. Container according spoke 1, characterized in that the ceiling (10) of the inner container (11) is suspended from ropes or chains (14), one end of which is attached to the ceiling (10) is attached, while the other ends with the deck construction (4) of the outer jacket (2) are connected. 4. Container according spoke 2, characterized in that the blocks (12) are made of wood. 5. Container according to claim 1 to 4, characterized in that in the space (15) above the ceiling (10) of the inner container (11) a heat insulating material is arranged. 6. Container according spoke 1 to 5, characterized in that the ceiling (10) of the inner Container (11) is provided with a shaft (17). 7. Container according spoke 6, characterized in that the shaft (17) on the deck structure (4) of the outer shell (2) is attached. 8. Container according to claim 6, characterized in that the shaft (17) opposite the Deck structure (4) of the outer shell (2) is displaceable. 9. Container according spoke 6, 7 or 8, characterized in that the shaft (17) with heat insulating material (18) is covered. 10. Container according spoke 1 to 9, characterized in that the inner container (11) is provided with a pump support (19) fastened to the inner surface of the base (9) and a support block (20) opposite this on the outer surface of the base (9) ) is attached, which engages in a recess in the bottom layer of the heat-insulating material (6) and is supported by a base (21) arranged in this recess. 11. Container according spoke 1 to 10, characterized in that the side walls (8) and the The bottom (9) of the inner container (11) consists of aluminum foil. 12. Container according spoke 1 to 11, characterized in that the ceiling (10) of the inner Container (11) is made of aluminum. 13. Container according spoke 1 to 12, characterized in that as a heat insulating material 6. Balsa wood is used. Considered publications:
Belgian Patent No. 569 087;
U.S. Patent Nos. 2,393,964, 2911125. For this purpose, 1 sheet of drawings 309 807/102 1.64 © Bundesdruckerei Berlin