DE1113319B - Separation device for gas chromatograph - Google Patents

Description

Separation device for gas chromatographs The invention relates to a Separation device for gas chromatograph. The term "gases" denotes in the following possibly also vapors.

It is already known to use a capillary separation column for decomposition of gas mixtures containing several compounds by means of chromatography use. For this purpose, a capillary tube, the bore diameter of which is usually less than 1 mm, lined with a suitable adsorbent material and then the mixture of the gases to be separated from one another with the aid of an inert carrier gas pushed through the pipe. Because of the selective adsorption on the lining the pipe, the components of the gas mixture pass the pipe with different Relative speeds, so that the gas mixture is broken down. This procedure offers compared to the known method of gas chromatography has the advantage that a better Separation of the components of the mixture is achieved.

It is the object of the invention, the known capillary separation column by to replace a separator that also ensures good separation of the components allowed, but the scope of this method compared to the known device considerably expanded, so that they can also be used for industrial purposes with simple means can be exploited.

The new separation device is characterized according to the invention by means of two surfaces that can be clamped together in a gas-tight manner, at least one of which is a surface has a groove or groove, the ends of which each have a connection for the Has gas supply or gas discharge.

The groove or the grooves or grooves can be with any Shape and length are formed, and the shape of the same depends on their Length compared to the dimensions of the component (s) used. Further you can give the groove or the grooves any cross-sectional shape that can be easily produced.

The groove or groove is preferably curved, for example spiral or helical.

This allows a very large length to be accommodated in a small space. The groove and groove is easy to manufacture with great accuracy. Besides, lets they can be cleaned quickly without difficulty or with different linings Mistake.

In a preferred embodiment, they are gas-tight to one another tensionable surfaces formed by two flat plates or flat materials. The groove is worked into a surface and covered by a surface that is not grooved or has a similar groove. Both surfaces can be if necessary be provided on the same plate or sheet-shaped body that is in this The trap has to be flexible enough so that it can be bent or folded around the to bring both surfaces into contact with each other. For example, you can have a Form a groove on a surface of a flexible sheet, which is then wound together so that the non-grooved back of the flat material with the grooved front is brought into contact.

Alternatively, the second surface can be replaced by one side of a second Plate can be formed, which can be grooved or ungrooved Even if the second If the plate is grooved, the grooves in both plates will be formed in such a way that that they coincide when the flat sides of the two plates are placed on top of one another.

It is possible to connect several of these flat material parts or plates one behind the other or to arrange them like a parallel connection. When connected in series the gas becomes after passing a capillary tube through the next capillary tube directed etc .; the plates or flat material parts delimiting the capillary tubes can be stacked on top of one another or arranged next to one another. To this Way one obtains a flow path for chromatographic purposes, its length can be varied, with a longer or shorter section easily through Adding or removing plates or flat material parts received can. With a device designed in this way, it is also easily possible to use vapors branch off at any point along the flow path.

If you need capillary tubes connected in parallel, you can use the Also stack plates or flat material parts on top of one another or next to one another arrange; in this case, however, the gas becomes the different flow paths at the same time fed.

The use of a wound or rolled flat material proves in this case to be particularly useful, because you can use the strip of material provided in the direction of its longitudinal axis with parallel grooves or grooves, the number of which is limited only by the method used to form the grooves, and on in this way it is possible to have a single piece of sheet material with a large number to be provided by similar flow paths.

In a further embodiment of the invention, the groove is in the surface of a truncated cone provided, which is covered by a surface, which is either grooved or ungrooved and in gas-tight contact with the first mentioned grooved surface. The second surface can be the inner surface act a frustoconical sleeve, which is so on the grooved frustoconical Surface can be pushed that a gas-tight contact is guaranteed. It should be noted that the outer surface of this sleeve can in turn be grooved and that in this case a second sleeve can be pushed onto the first sleeve, to form another flow path; this way you can make a sentence obtained from flow paths.

In a further embodiment of the invention, the flow path with a z. B. Filling consisting of glass beads: be provided. These glass beads have such a diameter that they can only be shaped in the groove or groove can be arranged in a single row. In this case you can use the pearls with a coat adsorbent material so that it is not necessary to cover the walls to provide the groove with a coating.

The invention is described below with reference to schematic drawings explained in more detail using several exemplary embodiments.

Fig. 1 shows in plan a grooved plate for use in a device according to the invention; Fig. 2 is a section through the plate according to Figure 1 comprehensive assembled device; Fig. 3 illustrates a modified form of a plate in plan; Fig. 4 shows in section and an exploded view of a device with the plate according to FIG. 3; Fig. 5 is a longitudinal section through a modified embodiment.

In Fig. 1 and 2 can be seen a plate 1 with a drilled inlet channel 2 for supplying the gases and an outlet channel 3 for discharging the gases from the device. It should be noted that the inlet channel 2 and the outlet channel 3 can be interchanged. Nipples 6 for connecting hoses or the like are screwed into the two channels. A groove 7 is cut into the surface 4 of the plate 1 and extends in a spiral shape extends from the inlet channel 2 to the outlet channel 3. A second plate 8 of similar Size as the plates, but without grooves or entrances inlet and outlet channels, can with the plate 1 are braced by means of screw 9 and nut 10; the screw 9 extends through an opening in the middle of the plate 1 and one with this cover Opening in the plate 8.

In order to ensure a gas-tight seal, between the Plates a rubber layer 12 and an aluminum foil 13 clamped. In the present Trap can either be the surface 4 of the plate 1 or the surface of the aluminum foil 13 must be coated with an adsorbent material before the panels are assembled will; this material is applied by condensation of vapors from the adsorbent material on the surface in question. Alternatively, you can do both Cover surfaces by using the steam after assembling the Device passes through the capillary tube under such conditions that the steam condenses on the walls of the capillary tube. Then you can use mixtures of introduce the gases to be separated into the device via the inlet channel 2 and withdraw the separated constituents of the mixture via the outlet channel 3.

In the embodiment shown in FIGS. 3 and 4, the Plate 14 is a modified form of plate 1. The parts are the same denoted by the same reference numerals as in FIGS. The inlet port 15 covers a larger area of the plate 14 than it is in the inlet channel 2 of the Plate 1 is the case and there is a second outlet channel 16 of the same size as the inlet channel 15 is provided, and this outlet channel is at the same distance from the center of the plate 14 arranged as the inlet channel 15. The groove 17 of the Plate 14 is due to the larger dimensions of the inlet channel 15 and its presence of the second outlet channel 16 divided into two sections, namely into one section, the several extending from the inlet channel 15 to the outlet channel 16 short Grooves 17 includes a second portion which is only a single one from the inlet port 15 has a long groove 18 extending to the outlet channel 3. The device will assembled in a similar way as when using the plate 1, with a second Plate 8 and similar coatings can be used. In the plate 14, however, are additional Screw holes 19 are formed, and the plates 8 and 14 are screwed braced together, which extend through the holes 19 and corresponding holes in the plate 8 extend; furthermore, the two plates are in the middle by means of a Screw 9 clamped together. This improves the gas seal. aside from that The plate carries dowel pins 20 to accurately register the plate 14 with the plate 8 to ensure when bracing the same.

The second outlet 16 allows an excess to flow out Amount of gas supplied.

Thus, a small part of the gas mixture can flow through the long groove 18, wherein the components of the mixture are separated, while the excess Amount reaches the channel 16 via the short grooves 17 and the device on this Place leaves. This avoids the difficulties that arise if you want to regulate the gas supply to the device precisely to the capacity not to exceed a single groove, because the gas throughput only needs to be adjusted so that the performance of the groove 18 and of the various grooves 17 is not exceeded.

In the embodiment of Fig. 5 is a massive frustoconical Body 21 provided with a small taper angle; the cone angle is for clarity shown exaggeratedly large; the body 21 has an inlet port 22 and a Outlet channel 23 on; the two channels are each from the outer surface of the body 21 drilled out at right angles to its axis. There are threaded nipples in the channels 24 screwed in, onto which hoses can be pushed to supply or remove the gases. In the peripheral surface of the conical body there is a groove 25 in the form of a helix incised.

This groove extends from the edge of the inlet channel to the edge of the Outlet duct. A sleeve 26 is pushed onto the frustoconical body 21, which can be clamped to the body 21 by means of a screw 27.

It has also been shown in this case that it is during assembly of the device is expedient, a layer between the body 21 and the sleeve 26 29 made of rubber and an aluminum foil 30 to be arranged. The surface of the frustoconical Body or the inner surface of the sleeve 26 or both surfaces are in the above provided with an upper train described in relation to the mentioned plates, and the device is used in a manner similar to that composed of flat plates Forms of training.

One of the advantages of the invention is that it enables to accommodate a large number of grooves or grooves in a relatively small space, so that an application of the chromatographic process to preparative chromatography is possible; Such an application was not previously given because extract only tiny amounts of material with the help of a single capillary tube. In particular, the invention can be used in industrial work, e.g. B. in the preparation of certain fatty acids from a mixture of fatty acids. A Another advantage of the invention is that the groove or groove in the incorporate essential standardized dimensions in the surface of a component and the non-grooved surface that is in contact with the component tion can be brought should, provided with a coating of an adsorbent material or that alternatively, in the case of using a flexible flat material, only that is not Fluted side of the flat material provided with a coating. When the components the device are clamped together or if you have the flat material parts rolls or winds up, regardless of the thickness of the coating, an is obtained Groove of a predetermined size.

Furthermore, the grooves can be easily filled with an adsorbent material undress and just as easily clean after use.

Claims (6)

PATENT'S CLAIMS: 1. Separation device for gas chromatographs, marked by means of two surfaces that can be tensioned gas-tight to one another, of which at least one surface (4) has a groove or groove (7 or 17, 18 or 25), each with its ends has a connection (6 or 24) for the gas supply or the gas discharge. 2. Separating device according to claim 1, characterized in that the groove or groove is wound, for example curved in a spiral or helical manner is. 3. Separating device according to claim 1 or 2, characterized in that that the surfaces that can be clamped together in a gas-tight manner are formed by two flat plates (1, 8) are. 4. Separating device according to claim 1 or 2, characterized in that that the surfaces that can be clamped together in a gas-tight manner are frustoconical surfaces (Fig. 5). 5. Separating device according to claim 1 or 2, characterized in that that the surfaces of the front and rear surfaces that can be clamped on one another in a gas-tight manner one and the same flexible plate, which can preferably be rolled up to form a roll or sheet-shaped body are formed. 6. Separating device according to claim 2 to 5, characterized in that that the gas supply (15) simultaneously with several adjacent grooves or grooves (17, 18) communicating, a part of which (17) from opposite the other grooves (18) of short length with an additional drain (16) in connection stands.