DE2917844A1 - Tube system for carrying cold liquid or gas - has gas absorber in thermal insulation vacuum, esp. for superconducting cable in liq. gas line - Google Patents

Abstract

The tube system consists of two or more concentric tubes (1, 2) forming a toroidal gap between the containing termal insulation (3) in the form of a vacuum. The thermal insulation is supplemented by fibres or nonwoven fabric that absorbs residual gases and preserves the vacuum and therefore the thermal insulation. The fibres or fabric are embedded between two layers of plastic fabric or are held by a wire mesh or by a perforated metal sheet. The absorbant substance is aluminium oxide. The fibres or fabric are located as close to the inner (low-temp.) tube as possible.

Description

Consists of two or more concentric tubes

Thermal insulation pipe system The present invention relates to a pipe system of two or more concentric pipes, of which at least two adjacent pipes enclose an annular gap, which is created by thermal insulation is filled in using vacuum. Such a pipe system can, for example be an electrical superconductor cable, but it can also function as a liquid gas line or the like.

For the insulation of refrigeration systems and those containing refrigerants Containers and lines as well as cables, especially for superconductor purposes, has become High vacuum in connection with a so-called super insulation as the most effective enfiesen. Such a super-insulation, known per se, consists of a large number Highly reflective layers of material layered on top of one another, preferably made of Aluminum or metallized plastic film, for example in the form of a polyester or Propylene film, which is separated from each other by poorly thermally conductive layers being held.

Such separating materials, e.g. B. mats, fleeces or fabrics made of glass or Synthetic fibers ensure that none or only one extreme low heat conduction through which there is up to 120 layers of super insulation.

It has been found to be disadvantageous in these known constructions proved that after evacuating and sealing the super-insulation Vacuum space despite long periods of pumping and heating, the super insulation is still always guest. This is mainly due to the fact that most of the multitude of layers are used The gas that was still in place could not be finally removed and that those on the numerous and abundant gre- ben surfaces of the individual layers of the Super-insulation gases and vapors absorbed the applied vacuum through desorption to scoop out all manly.

To prevent such a vacuum deterioration, it is known @absorbents, such as. S. @ktivkehle, @ l @@ inumox see (Zeolites) in the: to bring in vacuum space. These zucaben are able to take over long. Time to go to bind the gases and vapors released in the course of time, so that they do so Vacuum does not deteriorate.

In the case of fixed benches or rigid lines used in refrigeration Systems are used, is the introduction or accommodation of the powder, Granules, balls or sticks present absorbent problem-free.

It is different, however, with flexible structures, as they are, for. Am from Corrugated casing components in existing liquid gas transport lines or in flexible ones There are cold protection systems for Krye- or Superralellerkabel. Rier is enough simple introduction usually does not prevent the vacuum from deteriorating the emission of gases from the thermal insulation: to prevent as a fixation the absorbent is not possible The invention is therefore the object based on a way to find suitable absorbent not only in solid or to be able to introduce rigid, special also into flexible structures in such a way that they are yours Fully do justice to the task on the spot.

This object is according to the invention in a pipe system with thermal Isolation in the annular gap between each two pipes solved by the fact that additional lich for thermal insulation in the annular gap, residual gas-absorbing agents in fiber or are arranged in a fleece-like shape. This makes it possible to use mats or fleeces in the form of stripes in the shape of a scabbard or continuously running lengthways in one piece or only in parts around the flexible, refrigerant inner tube, which can also be wavy to increase flexibility, to wrap and thus over to distribute the entire length of the line. Also in Ginom flexible tube, there is the advantage above all of using these @ittel in Associations that are as close as possible to those in contact with the refrigerant of the pipe so that the effective support of the @ bsorpti @ n @ urc @ Temperaturerriccrigung can fully penetrate.

@eondes it is advantageous if in implementation of the inventive concept Al @ minium oxide is used as a West @ as @ absorbing agent. It has @@ lic @ has shown that fibers or fleeces made from overlay can be distinguished by their particular flexibility and pralelasticity and are free of fibrous veru @ r @ ini @@@ en. before Above all, such absorption elements made of Al2O3 are polycrystalline and microperous, which contributes to a significant increase in the total surface, which then becomes remarkably responsive.

@itunter has found it beneficial, especially when it is The absorbents according to the invention are very thin fibers or fleeces Nancelt embed these between two layers of plastic fiber fleece. As plastic fiber webs z. B. those based on polyethylene terephthalate (PET ) or polypropylene (PP) can be used, with which the residual gases dissipate Fibers or fleeces are connected in a suitable manner.

Another advantageous application arises after another Invention @ wdesgedanken then. if the absorbent fibers, fleeces or mats alone or in connection with the plastic elements as a carrier at the same time for the spacer the highly reflective sensor of the superisslation, d. b. in the structure of the thermal insulation can also be used. So that so far for this Purposes used glass or plastic fiber fleece wholly or at least partially be replaced.

Further additional absorbent material would be required, because the AI2O3 fibers, fibers or mats ala so-called "spacers" or absorbent material are precisely positioned in the most effective places for the operation of the system.

Other carriers for the aluminum oxide layers can also be thin, perforated Be sheets that can be designed superficially so that they in turn task reflective layers of super insulation can take over.

The invention is said to be the land of don Fi'j. 1 and 2 as an exemplary embodiment so-called Kältenittel transport line illustrated in more detail.

Such a cold line, for example for the transport of liquid nitrogen in refrigeration systems, z. 3. from the two concentric metal tubes 1 and 2 exist, which are shown in a smooth version, to increase flexibility but can also be wavy. The thermal insulation 3 in the annular gap between the tubes 1 and 2 consists of a so-called. Superisoliering, which, as shown in Fig. 2 seen on an enlarged scale, from the insulating and spacing Layers 4 z. B. from suitable plastic fiber fleeces in combination with the highly reflective Metal foils b, e.g. B. made of aluminum.

In order to avoid a deterioration in the vacuum in the annular gap between the To counteract pipes 1 and 2 is, in the exemplary embodiment, directly on the Inner tube 1, the wrapping 8 made of residual gas-absorbing material, e.g. B.

based on Al2O3. The temperature decrease due to the immediate Contact of the winding 8 with the pipe 1 carrying the refrigerant leads to a substantial Supporting the action of the absorbent itself

Claims (1)

Claims 1. consisting of two or more concentric tubes Pipe system, of which at least two adjacent pipes enclose an annular gap, which is filled by thermal insulation using vacuum, for transporting or receiving frozen liquids or gases, for example Electric superconductor cable, liquid gas line or the like, characterized in that, that in addition to thermal insulation in the annular gap itestgase absorbing means are arranged in fiber or fleece-like form. 2. Pipe system according to claim 1, characterized in that the residual gases absorbent fibers or fleece between two layers of plastic fiber fleece are embedded 3. pipe system according to claim 1, characterized in that the Residual gas-absorbing fibers or fleeces held by a metal wire mesh are. 4. Pipe system according to claim 1, characterized in that the residual gases absorbent fibers or fleeces held by a thin, perforated sheet metal as a carrier are. 5. Pipe system according to claim 1 or one of the following, characterized in that, that aluminum oxide is used as a residual gas absorbing agent. 6. Pipe system according to one or more of claims 1 to 5, characterized characterized in that the residual gases absorbing fibers or nonwovens in the annular gap as close as possible to the inside of the frozen liquid Tube are arranged. 7. Pipe system according to claim 2, characterized in that the material used a high-strength plastic is used for the plastic fiber fleece. 8. Pipe system according to one or more of claims 1 to 7, characterized characterized in that the residual gases absorbing fibers or nonwovens in a layer structure the thermal insulation are arranged.