NO180396B - Heat insulation for the ball tank for cooled liquids - Google Patents

Description

The present invention relates to thermal insulation for a spherical tank for chilled liquids, as stated in the introduction to patent claim 1.

Such a design is known from JP-OS 52-45 721. In the known arrangement, the lamellae which form the elastic transition are bent into a V-shape and are attached with one end to the edge of the plates in the heat insulation in the area of the lower hemisphere and with the other end to the inner heat insulation in the storage of the tank. In the event of heat movements caused by temperature differences, the slats can thus roll in and out.

A preferred application of the object of the invention is for ball tanks for the storage or transport of chilled liquids on board ships. The ball tank is supported against an annular bearing which is firmly connected to the ball tank by welding approximately in the equatorial plane, and which is also referred to as a skirt. The structure of suitable plates for the heat insulation and their assembly on the surface of the ball tank is known, for example, from DE 35 28 776 -C2- or DE 31 08 801 -C2- and other documents. The plates in a thermal insulation for large temperature differences preferably consist of foamed polystyrene or polyurethane.

In the state of use, the ball tank and the heat-insulating, covered part of the ring-shaped, cylindrical storage are cold, and have thus shrunk in relation to the warm initial state during assembly. As the storage under the heat-insulating cover has a temperature that corresponds to the ambient temperature, the thermal insulation on the ball tank separates from the inner insulation in the storage, so that a shift occurs between the two insulations. This displacement amounts, for example, to a spherical tank diameter of 40 m and a content of liquid methane obtained by cooling approximately 90 mm. Such displacement affects the thermal insulation and can lead to damage to the thermal insulation in these places, and under certain circumstances this can be associated with catastrophic consequences.

One purpose of the invention is to allow temperature-dependent movements in the transition between the plates in the thermal insulation which are placed on the lower half of the coal tank and the internal thermal insulation in the storage, and so that this has no negative impact on the effect of the thermal insulation.

According to the invention, this is achieved with the features specified in patent claim 1.

The elements which according to the invention are arranged in the transition are made of the same heat-insulating material as the custom-made plates from which the heat insulation on the coal tank is formed. A pre-production of these elements can also be carried out at a favorable price. The indicated blocks preferably consist of solid, expanded polystyrene and possibly partly of elasticized polystyrene. The slats in the unit, on the other hand, are only made of elasticized polystyrene. During assembly, one of the two blocks is glued to the internal thermal insulation in the storage, respectively to the form pieces, and the other of the two blocks is glued to the edge surfaces of the plates along the upper edge of the thermal insulation on the lower half of the coal tank. In addition, other fastening means can be used, for example fastening bolts. The lamellae are then inserted one after the other by elastic deformation, and their ends on the edge surfaces are glued to the blocks, so that the lamellae in the unit touch each other with the surfaces and are mutually displaceable. Preferably, the lamellas have a greater length than the distance between the blocks, to enable a better expansion movement. In the circumferential direction of the ball tank, the slats can be staggered, so that a sort of labyrinth seal is formed throughout the ball circumference.

The drawings schematically show an embodiment example.

Fig. 1 shows a spherical tank, with one half seen from the outside and one half shown in a vertical section

through the middle.

Fig. 2 shows on a larger scale than fig. 1 a vertical section through a storage for

bullet tank.

Fig. 3 shows on a larger scale than fig. 2 the area near the slats when hot.

Fig. 4 shows the same area as fig. 3 in cold condition.

Fig. 5 schematically shows a special arrangement of the slats in an embodiment according to

the invention.

From the schematic illustration in fig. 1 shows the support of a spherical tank 1 for chilled liquids, on a support 2 which rings around the lower spherical part in a certain height range, the upper edge of the support being connected to the spherical tank 1 by welding approximately in the equatorial plane. The thermal insulation of the ball tank 1, which is accessible through an upper dome 3, is mounted in the form of pre-manufactured plates 4, which are arranged in rows above each other and mutually offset in the rows. The structure of these heat-insulating plates 4 of a suitable insulating material is not the subject of the invention, and is described in detail in other publications. The heat insulation on the upper half of the ball tank 1, which is composed of plates 4, continues at the equatorial plane 5 on the outside of the ring-shaped, cylindrical storage 2 in a certain height range, as can be seen from fig. 1 and particularly clearly from fig. 2. The thermal insulation on the lower half of the coal tank 1 likewise consists of plates 4. In addition, on the inside of the skirt 2, a thermal insulation of pre-made shaped pieces 6 is placed. The transition between the upper layers of plates in the thermal insulation on the lower half of the coal tank 1 and the opposite these, the surface of the mold pieces 6 consists of lamellae 7 which from the center of the ball tank and radially outwards lie loosely against each other as a layer, and of a first block 8 which is attached to the mold piece 6, as well as of a second block 9 which is attached to the edge surfaces on the adjacent plates in the upper plate layer in the thermal insulation of the lower half of the coal tank. The edge surfaces of the lamellas 7 are glued to these blocks 8 and 9. The surfaces of the lamellas 7 which are in mutual contact lie loosely against each other. During assembly, the blocks 8 and 9 are first glued to the form piece 6, respectively the overlying plate 4, so that the lamellae 7 can be inserted one after the other by elastic deformation between the blocks 8 and 9 and glued to the blocks with the side surfaces that lie against the blocks. The lamellas 7 have a greater width than the distance between the two blocks, and are glued to the attachment surfaces of the two blocks with the side surfaces that run perpendicular to the extended wide side of the lamellas. In the circumferential direction, the lamellae are arranged staggered, so that a sort of labyrinth seal is formed in the circumferential direction. On the tank side and on the outside, a vapor barrier 10 is attached which covers the slats 7, for example an aluminum foil. In addition, a plate cover 11 is arranged on the outside, which protectively covers the transition between the mold pieces 6 and the plate in the upper plate layer in the heat insulation of the lower half of the coal tank and has means to adapt to expansion. In fig. 3, the transition is shown in a warm state (ambient temperature). Fig. 4 shows the transition in use, when the container with the heat insulation is attached to the lower half and cooled by the content has shrunk towards the center of the sphere.

Claims (4)

1. Thermal insulation for a spherical tank (1) for chilled liquids, consisting of plates (4) which are attached to the surface of the spherical tank, which is supported on an annular support (2) approximately in the equatorial plane, being at the upper edge of the thermal insulation on the lower hemisphere, between the sphere surface and a heat insulation on the inside of the ring-shaped storage, are arranged inserted form pieces (6), while between the form pieces (6) and the upper edge of the heat insulation on the lower hemisphere are provided with an elastic connection of a layer of opposite lamellas (7), characterized in that the lamellas (7) are attached on one side to a first block (8) which is connected to the form pieces (6) and on the side which is parallel to the first side is attached to a second block (9) which, on the upper edge of the thermal insulation on the lower hemisphere of the ball tank (1), is connected to the adjacent plates (4), the slats (7) being wider than the distance between the two blocks (8, 9) and is attached at its long sides to the two blocks (8, 9), e.g. by gluing etc 2. Thermal insulation as stated in claim 1, characterized in that the slats (7) are arranged offset in relation to each other in the circumferential direction of the ball tank (1). 3. Thermal insulation as specified in requirements 1 and 2, characterized in that the slats (7) are covered by a vapor barrier (10) on the tank side and on the outside. 4. Thermal insulation as stated in requirements 1 - 3, characterized in that the elastic transition between the mold pieces (6) and the plates (4) on the lower half of the ball tank surface has a plate cover (11) with means to accommodate expansion.