RU2509951C9 - Insulation cassette - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: insulation cassette as a part of the cover of steam generators under intermediate pressure, for example as an insulation casing of the pipe. The cassette includes closed housing (5) from a metal plate that fully encloses insulating filling material. The latter includes aerogel. The insulation cassette has approximately a C-shaped cross section and is equipped with fasteners. Insulation cassettes made in the form of complementary parts can be assembled by means of fasteners so that the closed pipe casing can be formed.

EFFECT: preventing penetration of material leaving the insulation cassette to a water circuit due to its physical properties.

20 cl, 5 dwg

Description

The invention relates to an insulating cassette as part of the shell of steam generator devices under pressure of a medium, for example, as an insulating casing of a pipe containing a substantially closed casing of sheet metal that completely encloses the insulating filler material.

Such an insulating cassette is often used for thermal insulation of pipelines of steam generators.

Known insulating cassettes are metal sheet cassettes made in the form of half-shells and filled with mineral wool, glass wool or similar insulating materials. Such devices are described, for example, in DE 2923094A. When insulating cold and heated pipelines, it is common to provide insulating materials with a shell that protects the insulating material from the effects of climatic conditions and mechanical damage. The insulation sheath is often performed by sheathing the insulating material, for example, zinc sheet. In some applications, for example, in the cooling circuits of nuclear power plants, the suitability of using closed insulating cassettes, which completely cover the insulating material, has been confirmed. In particular, the casing of insulating cassettes of sheet metal is designed to provide sufficient protection against mechanical damage to the insulating material. However, in accidents at nuclear power plants during which refrigerant leaks, it may nevertheless happen that the metal cage is destroyed and the insulating material inside it exits. For example, a situation may arise in which, under the action of a jet flowing from the cooling pipe, the insulating cassette is destroyed. Insulating cassettes of the type described above are used, for example, to insulate pipelines with a diameter of up to about 800 mm with an internal pressure of 160 bar at an average temperature of about 300 ° C. It can be easily imagined that the resulting jet from such a pipeline can create relatively large mechanical forces acting on the insulating cassette.

In this case, theoretically, a breakdown of the body of the insulating cassette from the metal sheet can occur, and the insulating material will be washed out of the cassette under the influence of a flowing stream of refrigerant. Washed insulating material can clog the inlet strainers of pumps installed in the pit of the reactor, making it difficult to eliminate the accident.

It has become apparent that there is a fundamental problem of retention of fibrous insulation materials using nets. Laboratory tests have shown that the fibrous material, on the one hand, is difficult to hold with relatively dense nets, and, on the other hand, there is a large pressure drop on the nets during fiber accumulation on the nets. This can lead to destruction of the grids.

The aim on which the invention is based, therefore, is to improve, in this regard, the insulating cassette of the previously mentioned type.

The purpose on which the invention is based is achieved by using an insulating cassette as part of the shell of steam generator devices that are pressurized, for example, as an insulating casing of a pipe containing a substantially closed casing of sheet metal that completely encloses the insulating filler material, the insulating the cassette is characterized in that the insulating filler material contains airgel. Under the airgel should be understood, in General, and in the context of the invention, highly porous solids, in which up to 95% of the volume are pores. The use of this material as a filler material for an insulating cassette has the advantage that, for example, it is possible to more easily prevent the material leaving the insulating cassette from entering the water circuit due to its physical properties.

The provided insulating core material is preferably an inorganic airgel, which is a non-wettable, floating and non-flammable material. It has been found that an insulating cassette in which the insulating core material contains silicate airgel is particularly preferred. Such silicate aerogels may contain, for example, pores with a diameter of about 20 nm with a porosity of more than 90%. The density of the material can be in the range from 90 to 100 kg / m ³ . The thermal conductivity can be, for example, up to about 0.018 W / m · K at a temperature of 25 ° C. Such a material may have an internal surface area of from about 600 to 800 m ² / g. The material is thus generally suitable for use as an insulating material for the purposes described above.

For example, as a suitable silicate airgel, you can use the material under the trademark "Nanogel", which is sold by the company "CABOT Corporation".

In a suitable embodiment of the insulating cassette according to the invention, it is proposed to use an insulating core material containing an airgel in the form of a granulate, preferably with an average granule size of 0 mm to 4 mm. Such a granulate has, in particular, advantages in terms of ease of handling. It can be poured through the appropriate holes for filling in cassettes of metal sheet. Insulation cassettes can be filled to ensure the highest possible packing density.

Alternatively, the insulating core material may comprise at least one airgel molded article. Such a molded product can be adapted to the configuration of a preferred dimensionally stable metal sheet housing. The casing of the metal sheet of the insulating cassettes can be made, for example, of austenitic steel. In a particularly preferred embodiment of the insulating cassette according to the invention, the use of non-translucent airgel is provided. Appropriately processed airgel can be used for this purpose. An advantage of this is that the infrared reflectance of the sealing material used is increased, and thus its insulating effect is improved.

To this end, for example, the insulating filler material may comprise graphite powder and / or metal oxide powder. The powder may, for example, be in a homogeneous mixture with airgel granulate. The core insulation material may, for example, comprise airgel and graphite powder and / or metal oxide powder in a homogeneous mixture; wherein the proportion of graphite powder and / or metal oxide powder is from 1.5 to 4.5 wt.%.

It is advisable that the insulating cassette according to the invention has an approximately C-shaped cross-sectional shape and is provided with fastening means with which it is possible to assemble insulating cassettes made in the form of mutually complementary parts to form a substantially closed pipe casing.

However, within the scope of the invention, the insulating cassette can be adapted to any desired circuit of the device along which the working medium to be insulated is transported.

The invention is explained below by describing an exemplary embodiment illustrated in the drawings, in which:

in FIG. 1 is a schematic view of a pipeline covered by insulating cassettes according to the invention;

in FIG. 2 is a top view of II-II in FIG. one;

in FIG. 3 is a longitudinal section III-III in FIG. 2;

in FIG. 4 is an exploded view of an alternative embodiment of an insulating cartridge according to the invention; and

in FIG. 5 is an insulating cassette shown in FIG. 4, in assembled condition.

In FIG. 1 shows part 1 of a high-temperature pipeline through which pressure medium is transported. Part 1 of the pipeline is covered by insulating cassettes 2 according to the invention, where insulating cassettes 2, which in each case have a cross-sectional profile of a C-shape, and two mutually complementary insulating cassettes 2 are assembled in each case with fastening means 3 to form a closed tube-shaped insulating shell 4 As fastening means, for example, the well-known forked type folding fasteners can be used. Each insulating cassette 2 consists of a riveted or welded body 5 of a metal sheet, preferably made of austenitic steel sheet. The housing of the metal sheet is closed around the entire circumference and from the end faces 6, and is filled with insulating filler material 7. In the embodiment, the insulating cassettes 2 shown in FIG. 1-3, contain an insulating core material in the form of silicate airgel granulate. Here, the granulate contains granules having an average size of from 0 to 4 mm made of silica gel modified with trimethylsilyl oxide, used as the main component. This granulate has a porosity of more than 90%, contains pores with a diameter of about 20 nm, has a bulk density ranging from 90 to 100 kg / m ³ , and a specific thermal conductivity of about 0.18 W / m · K at a temperature of 25 ° C . The specific surface area is from 600 to 800 m ² / g. Airgel is non-flammable, non-wettable and floating.

The granulate is introduced into the insulating cassettes through holes 8 made in the end walls of the latter. The holes 8 are then covered with covers 9. The covers 9 can be welded, screwed or riveted.

In FIG. 4 and 5 show an additional, exemplary embodiment of an insulating cassette 2 according to the invention. The insulating filler material 7 is made in the form of a molded product 10, the configuration of which is adapted to the configuration of a dimensionally stable casing 5 of a metal sheet.

The molded product 10 is inserted in a tight fit into the housing 5 of a metal sheet, the end side 6 of which is closed by a correspondingly made cover 9.

The properties of the airgel, either in the form of a granulate or in the form of a molded product 10, are improved in terms of its ability to reflect infrared radiation, i.e. its insulating properties with respect to thermal radiation, through coloring, have been improved. For example, it can be provided by spraying graphite powder and / or metal oxide powder onto the molded product 10. The granulate can be mixed with graphite powder and / or metal oxide powder, where the proportion of graphite powder and / or metal oxide powder can be from 1 to 4 masses .%.

The list of items indicated in the drawings:

1 - Part of the pipeline

2 - Insulation cassette

3 - Fasteners

4 - Insulation sheath

5 - Sheet metal housing

6 - End faces

7 - Insulation core material

8 - Holes

9 - Cover

10 - Molded product

Claims (20)

1. The insulating cassette (2) as part of the shell of the steam generator devices under pressure of the medium, for example, as an insulating pipe casing, containing a substantially closed casing (5) of a metal sheet that completely covers the insulating filler material (7) characterized in that the insulating filler material (7) contains airgel, while the insulating cassette (2) has an approximately C-shaped cross section and is equipped with fastening means (3), by which the insulating cassettes (2) made in the form of mutually complementary parts can be assembled to form a substantially closed pipe casing. 2. The insulating cassette according to claim 1, characterized in that the insulating filler material (7) contains inorganic airgel. 3. The insulating cassette according to claim 1 or 2, characterized in that the insulating filler material (7) contains silicate airgel. 4. The insulating cassette according to claim 1 or 2, characterized in that the insulating filler material (7) contains an airgel in the form of granules, preferably containing granules having an average size of from 0 to 4 mm. 5. An insulating cassette according to claim 3, characterized in that the insulating filler material (7) contains an airgel in the form of granules, preferably containing granules having an average size of from 0 to 4 mm. 6. An insulating cassette according to any one of claims 1, 2 or 5, characterized in that the insulating core material contains at least one molded article (10) of airgel. 7. The insulating cassette according to claim 3, characterized in that the insulating filler material contains at least one molded article (10) of airgel. 8. The insulating cassette according to claim 4, characterized in that the insulating filler material contains at least one molded article (10) of airgel. 9. An insulating cassette according to claim 6, characterized in that the molded product (10) is matched with a configuration of a preferably dimensionally stable metal sheet housing. 10. An insulating cassette according to claim 7 or 8, characterized in that the molded product (10) is matched to the configuration of a preferably dimensionally stable metal sheet housing. 11. The insulating cassette according to any one of claims 1, 2, 5, 7-9, characterized in that the airgel has an increased ability to reflect infrared radiation. 12. The insulating cassette according to claim 3, characterized in that the airgel has an increased ability to reflect infrared radiation. 13. The insulating cassette according to claim 4, characterized in that the airgel has an increased ability to reflect infrared radiation. 14. The insulating cassette according to claim 6, characterized in that the airgel has an increased ability to reflect infrared radiation. 15. The insulating cassette of claim 10, characterized in that the airgel has an increased ability to reflect infrared radiation. 16. The insulating cassette according to claim 11, characterized in that the insulating filler material (7) contains graphite powder and / or metal oxide powder. 17. An insulating cassette according to any one of claims 12 to 15, characterized in that the insulating filler material (7) contains graphite powder and / or metal oxide powder. 18. The insulating cassette according to claim 11, characterized in that the insulating filler material (7) contains airgel and graphite powder and / or metal oxide powder in the form of a homogeneous mixture, and the proportion of graphite powder and / or metal oxide powder is from 1, 5 to 4.5 wt.%. 19. An insulating cassette according to any one of claims 12-16, characterized in that the insulating filler material (7) contains airgel and graphite powder and / or metal oxide powder in the form of a homogeneous mixture, wherein the proportion of graphite powder and / or metal oxide powder is from 1.5 to 4.5 wt.%. 20. An insulating cassette according to claim 17, characterized in that the insulating filler material (7) contains airgel and graphite powder and / or metal oxide powder in the form of a homogeneous mixture, wherein the proportion of graphite powder and / or metal oxide powder is from 1, 5 to 4.5 wt.%.

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