DE1157247B - Method for the external insulation of a tank for the storage of cryogenic liquids - Google Patents

Description

GERMAN

PATENT OFFICE

B 65489 Ia / 17g

REGISTRATION DATE: JANUARY 11, 1962

NOTICE
THE REGISTRATION
AND ISSUE OF
EDITORIAL: NOVEMBER 14, 1963

The invention relates to a method for the external insulation of a tank for cryogenic liquids, d. H. for liquefied gases, especially from large tanks for ship transport.

Such tanks can have very large dimensions, for example a diameter of about 25 m. When insulating these tanks, special precautions must be taken so that the strong Expansions or contractions are compensated, which result from the fact that the empty The tank assumes the ambient temperature, while the filled tank is below the low temperature of the liquefied gas.

In the method according to the invention, panels are used for insulation, and according to the invention the procedure is so that the outside of the tank wall at ambient temperature provisionally, for example by means of adhesive, insulating plates attached with a calculated distance from each other whereupon the tank is filled with the cryogenic liquid and then the insulating plates are finally fixed, for example by means of tapes placed around the insulation, the The distance between the plates is calculated so that when the tank is contracted during the Fill the gaps between the panels close.

The distance between the insulating plates is useful set by spacers, for example made of wood, which are removed again before filling will.

A synthetic polymer foam, for example polyurethane foam, can be used as the insulating material. can be used, with the interstices being filled with freon or a similar gas are. These insulating materials have a low heat transfer value and are at low temperatures stable. A tank for liquefied methane will require approximately 12.5 to 15 cm thick insulation required, whereby square plates with an edge length of about 60 cm can be used.

As an exemplary embodiment, the drawing illustrates the insulation of a tank for a tanker for the transport of liquefied gases.

The four figures of the drawing show schematically the arrangement of insulating plates on the tank wall 10. This is first installed in the ship's hull, and before the start of the insulation work the space surrounding the tank is closed so that a certain ambient temperature is set can be. The temperature range up to the operating temperature is based on this temperature of the filled tank, and then be

Method for the external insulation of a tank for the storage of cryogenic liquids

Applicant:

Bürness, Corlett & Partners Limited,

Worting, Near Basingstoke, Hampshire

(Great Britain)

Representative: Dipl.-Ing. W. Meissner, Berlin 33,

and Dipl.-Ing. H. Tischer, Munich 2, Tal 71,

Patent attorneys

Claimed priority:
Great Britain January 13, 1961 (No. 1533)

Ewan Christian Brew Corlett,
Worting Park, Basingstoke, Hampshire

(Great Britain),
has been named as the inventor

the degree of expansion and the distance between the plates determines with which they are initially attached must so that the gaps between the plates close when the tank is full.

The insulating plates 11 are now with temporary spacers 12 made of wood or another Material (Fig. 1) attached so that the insulating panels in both vertical and horizontal The right distance. To hold the insulating plates on the outside wall of the tank an adhesive is used. As soon as the insulating plates 11 are attached and the adhesive has hardened, are the temporary spacers 12 removed.

If the tank is now filled with cold liquid, it is drawn by the amount calculated in advance together, with the gaps between the insulating plates closing and these now sealing butt against each other.

The vertical and horizontal distances can be different, depending on the dimensions of the Tanks and the thereafter calculated heat-related movement possibilities depends. The distance can calculated in such a way that there is a contact pressure between the insulating plates when the tank is cold, see above that the gaps are closed absolutely tight.

309 748/78

This contact pressure is within the elasticity range of the insulating material in the case of the Temperature kept to a compression and an increase in gap size when Avoid re-expanding the tank.

The panels are finally fixed in place by means of external straps that are placed over supports, for example in the form of perforated sheets on which the trestles act. If necessary, can a vapor-tight seal can also be provided.

The insulating panels can be arranged in a single layer, as shown in Fig. 1, them but can also be arranged in two or more superimposed layers, as can be seen from Fig. 2 results. In the double layer arrangement of FIG. 2, the gaps are in the two plate layers offset to a certain extent, and while the plates of the outer layer with their partial surfaces 13 are attached to the inner layer by adhesive, the remaining parts of the plate surfaces are preserved no glue in either layer. This allows the panels in both layers move against each other, and when the tank cools down, the gaps are closed.

In another embodiment, shown in Fig. 3, the plates are in a single layer, but have mutually matching, stepped end faces 15, whereby essentially the same Effect as with two layers with staggered gaps. The step surfaces 16 of adjacent plates slide on each other.

The surfaces of the plates can be precisely matched to the curvature of the tank wall on a cutting table be adjusted. In general, it is not necessary to make the outer surfaces of the plates curved, rather, the outer surface of the whole insulation can consist of a large number of flat surfaces be composed.

Fig. 4 shows, as in the case of a double layer of panels, the inner surface 14 of the panels of the outer one Layer can be provided with two slightly inclined surfaces, so that these plates on the fit two adjacent panels of the inner layer that they overlap.

Claims (7)

PATENT CLAIMS: 1. A method for the external insulation of a tank for storing cryogenic liquids, characterized in that the outside of the tank wall (10) at ambient temperature provisionally, for example by means of adhesive, insulating plates (11) are attached at a calculated distance from each other, whereupon the tank with the cryogenic liquid is filled and then the insulating plates (11) are finally fixed, for example by means of tapes placed around the insulation, the distance between the plates being calculated so that the gaps between the plates close when the tank is contracted during filling. 2. The method according to claim 1, characterized in that the distance between the insulating plates (11) by spacers (12), for example made of wood, is set before the Filling can be removed again. 3. The method according to claim 1 or 2, characterized in that a synthetic insulating material polymeric foam, for example polyurethane foam, is used. 4. The method according to any one of the preceding claims for isolating a cylindrical Tanks, characterized in that the inner surfaces of the insulating plates (11) of curvature the tank wall (10) can be adapted. 5. The method according to any one of the preceding claims, characterized in that the insulating plates (11) are attached to the tank wall (10) in two layers, with the gaps between the plates of the outer layer offset from the gaps between the plates of the inner layer and the plates of the outer Layer with adhesive with the plates of the inner layer only on partial surfaces (13) provisionally are connected. 6. The method according to claim 5, characterized in that the inner surface (14) of the Plates of the outer layer are provided with two slightly inclined surfaces. 7. The method according to any one of claims 1 to 4, characterized in that the plates be provided with matching, stepped end faces (15), the stepped surfaces (16) adjacent plates slide on each other. Considered publications:
German interpretation document No. 1101203. For this purpose, 1 sheet of drawings 1 309 748/78 11.63