DE1265172B - Facility for storing and transporting low-boiling liquefied gases - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

Number;
File number:
Registration date:
Display day:

F17c

German class: 17g-4

1,265,172
E 299911 a / 17 g
August 28, 1965
April 4th 1968

The invention relates to a device for storing and transporting low-boiling liquefied Gases at atmospheric pressure, consisting of a rigid outer insulating jacket and one of these enclosed inner container, with the support and free mobility of the inner container on Due to temperature differences, wedges and wedge guides in the vertical direction on the inner container and are provided on the insulating jacket.

Devices of this type are already known. In one of these known facilities in which the Wedges and the wedge guides are assigned to the side walls of the inner container in the vertical direction, each wedge is kept shorter than the associated wedge guide, while the width of each wedge is essentially * 5 borrowed matches the width of the associated wedge guide. With this construction, the It is practically impossible to move the inner container in a horizontal plane because the containers sit tightly in the wedge guides Wedges to prevent this. Therefore, with this known device, it is possible to intercept the effects of cold Occurring change in size of the inner container is practically at best possible to a limited extent.

The invention is based on the object of avoiding this disadvantage and providing a device create, with which even considerable dimensional fluctuations of the inner container can be absorbed.

This is achieved by means of the device according to the invention for storing and transporting low-boiling liquefied gases at around atmospheric pressure, consisting of a rigid outer insulating jacket and an inner container enclosed by it, whereby for holding and free mobility of the inner container due to temperature differences Wedges and wedge guides are provided in the vertical direction on the inner container and on the insulating jacket are, and which is characterized in that the wedge guides are much wider than the wedges and the gaps between the wedges and wedge guides with bearing blocks made of insulating material with such Expansion coefficients are filled that the bearing blocks with all temperatures occurring stay in contact with the wedge guides.

It is advantageous if the width of the keyways is at least 2.25 times the width of a bearing block and the width of the wedges is at least 0.25 times the width of a bearing block.

The bearing blocks suitably consist of a mixture of urethane foam and fiberglass resin.
In principle, the device according to the invention provides a device for storage and transport
low-boiling liquefied gases

Applicant:

Esso Research and Engineering Company,

Elizabeth, N. J. (V. St. A.)

Representative:

Dr. K. Th. Hegel, patent attorney,

2000 Hamburg 52, Giesestr. 8th

Named as inventor:

Gordon R. Pringle, Lavender Hill;

Lower Bourne, Farnham (UK)

Claimed priority:
V. St. v. America September 4th 1964
(394533)

consequently a storage system for ship cargoes in the form of liquid gases, which is a new and has improved key and keyway arrangement and which as a result of the uniform snug fit of wedge and keyway ensures an optimal design of the supporting structure at all temperatures.

The invention is explained in more detail, for example, with reference to the drawing. It shows

F i g. 1 is a side elevational view of a liquefied gas tanker incorporating a device according to the invention having,

F i g. FIG. 2 is a plan view of the tanker of FIG. 1 and

F i g. 3 shows a section according to 3-3 of FIG. 1, widened and enlarged.

In the figures, the same parts are provided with the same reference numbers. In one labeled 11 Tanker is a generally designated 10 device according to the invention, which consists of an interior Tank 12 is conventionally loaded with a charge of liquefied gas, such as. B. liquefied Methane, can be filled through an attachment 13 located on the deck of the tanker.

809 537/197

The tank 12, which is expediently made of, for. B. aluminum or stainless steel is made so that it is a has adequate strength to withstand the load at very low temperatures to be able to withstand internal stresses caused, is designed so that it can be in the hold 14 of the tanker 11 or can be accommodated in an equivalent supporting structure. Of the Cargo space 14 itself is completely covered with suitable thermal insulation 20, e.g. B. made of balsa wood, urethane ίο foam or the like, lined. As shown in Fig. 3, Vertical keyways 15 are formed on each of the walls 16 of the tank 12 by elongated jaw members 17 educated. To provide symmetrical support for the tank, the keyways are along the largest surfaces of the inner tanks 12 and run through the center of gravity of the tank, as shown in FIG. 1 and 2 is shown. In accordance with the invention, the keyways 15 of the tank 12 are at all temperatures and below all expansion and contraction conditions by longitudinal wedge members 19 inevitably set, and on the wedge members 19 insulating bearing blocks 21 are provided, soft together with the tapered insulating block 26 form an insulating wedge, which is generally designated 25. the Insulation bearing blocks 21 can be attached to the side walls of the by glue or other suitable means Be attached wedge members 19 and so form an effective essential part of the same. As shown are the tapered insulating blocks 26 made of similar material as the thermal insulation 20, and they are attached to the wedge members 19 by glue or other suitable means so as to have one effective, one-piece part with it.

The insulating bearing blocks 21 which, for. B. can be made of a mixture of urethane foam and fiberglass resin, are arranged in the device according to the invention between the jaw members 17 and the wedge members 19 and thus have bearing contact over the entire temperature range to which the tank is exposed. The normal ambient temperature can drop to less than -260 ⁰ C for a load of cargo of liquid hydrogen.

The wedge members 19 are thermally insulated in a suitable manner so that they are of these temperatures Charge not affected and remain constant and fixed in width. The inner tank 12 will, however greater temperature fluctuations and as a result of the separation and contraction of the jaw members 17 and the keyways 15 defined thereby may be subjected to relatively large shrinkages. Therefore, it is required to provide bearing blocks of sufficient width to accommodate this movement and as well Provide sufficient isolation of the wedge members 19 to avoid any hypothermia and possible To avoid cracking of the tanker 11.

Since accordingly the change in width of the keyways 15 by the same changes in width of the Insulating bearing blocks 21 must be compensated, it is understood that the dimensions of the wedge members 19 must be specified as part of the construction of the tanker 11. The corresponding widths of the Keyways 15, the wedge members 19 and the insulating bearing blocks 21 can be calculated for the specific individual case when the specific expansion coefficients of the materials used are known and the width of each key or keyway is specified. According to the invention, the im substantially uniform attachment of the insulating wedge 25 in the keyway 15 ensured when

or when

= —- Wi

OCt

Wk = (- - 2

(Xt

Wk = width of the wedge link 19,

Wt = width of keyway 15 formed between jaw members 17 of the tank,

Wi = width of each insulating bearing block 21, oct = coefficient of expansion of the tank material,

κι = coefficient of expansion of the insulating bearing material.

It is further specified that the practical limit is the coefficient of expansion of the insulating bearing block 21 must be at least approximately 2.25 times greater than the expansion coefficient of the tank material, and therefore the width of the wedge member 19 at least one quarter (0.25) the width of the insulated bearing block 21 and the width of the keyway 15 must be be at least about two and a quarter (2.25) times the width of each insulating bearing block 21.

In the device according to the invention, the width of the keyway 15 is determined by the distance between the inner surfaces of the jaw members 17 is determined to the width of the insulating bearing blocks 21, the Width of the wedge members 18 and the corresponding expansion coefficient of the insulating material and the Tank material specially sized, and this ensures that the snug fit of the insulating wedge 25 at is substantially the same at all temperatures; d. that is, the positive bearing contact of the insulating bearing blocks 21 with keyways 15 at all temperatures and under all expansion and contraction conditions of the tank 12 as of the tanker 11 is maintained. This makes it a safe Storage and safe transport of liquefied gases guaranteed,

Claims (3)

Patent claims: 1. Device for storing and transporting low-boiling liquefied gases at around atmospheric pressure, consisting of a rigid outer insulating jacket and one enclosed by it Inner container, whereby for holding and free mobility of the inner container due to Temperature differences wedges and wedge guides in the vertical direction on the inner container and on the Insulating jacket are provided, characterized in that the wedge guides (15) much wider than the wedges (19) and the gap between the wedges and wedge guides with bearing blocks (21) made of insulating material with such a coefficient of expansion that the Bearing blocks remain in contact with the wedge guides at all temperatures that occur. 2. Device according to claim 1, characterized in that the width (Wt) of the keyways (15) is at least 2.25 times the width (Wi) of a bearing block (21) and the width (Wk) of the wedges (19) is at least 0.25 times the width (Wi) of a bearing block (21). 3. Device according to claim 1 or 2, characterized in that the bearing blocks (21) from a Mixture of urethane foam and fiberglass resin. Considered publications: German Auslegeschriften No. 1111050,1175 254; British Patent No. 886,940. 1 sheet of drawings 809 537/197 3.68 © Bundesdruckerei Berlin