DE4132358C1 - Gas investigation method for pollution control - feeding substances via gas chromatographic capillary tube to analyser after feeding gaseous material through adsorbing packing - Google Patents

Abstract

The method of qualitative and/or quantitative investigation of substances from a gaseous material involves acquiring the substances from a carrier gas and feeding them via a gas chromatographic capillary column (21) to an analyser (22). A defined quantity of gas is fed through an adsorbent packing. The adsorbent packing, which is at ambient temp., is flushed with a carrier gas which has passed through a second adsorbent, cooled packing (15). The carrier gas passes back through the second packing as the first packing is slowly heated to a defined temp. The substances adsorbed by the second packing are released by rapid heating and fed to the capillary column. USE/ADVANTAGE - For investigating gases such as air and exhaust gas for their content of harmful substances. Spectrum of substances under investigation is analysed as fully as possible, i.e. with minimal losses.

Description

The present invention relates to a method and a Device for the qualitative and / or quantitative investigation of gaseous raw material.

When examining gases such as air, exhaust gases and the like. Like., on that Presence of generally present in low concentration Substances, such as pollutants, cause problems for the entire spectrum to detect existing substances. For example, prepare Oxygen due to its reaction with substances to be examined higher temperatures Problems that distort the analysis result can.

The object of the invention is a method and To create a device of the type mentioned at the outset, which make it possible the spectrum of the substances to be examined as complete as possible, d. H. to be able to analyze as losslessly as possible.

This task is performed according to the characteristic part of the Claim 1 solved.

Further refinements of the invention are as follows Description and the dependent claims.

The invention is illustrated below in the attached Figure illustrated embodiment explained in more detail.

According to the illustrated embodiment, a provided with a package (for example, 7 cm in length) for adsorbing substances to be examined, tubular sample receptacle 1 , which has, for example, a threaded connector 2 and at the other end a cap 3 for Attach an injection needle 4 has. Polyphenylene oxide is an example of a packaging material.

Through the sample container 1 , for example, by means of a manually or motor-operated pump, a predetermined amount of a z. B. sucked on pollutants to be examined gas such as air or exhaust gas, so that the pack retains a corresponding amount of substances to be examined. For example, samples obtained at different times and / or different locations and located in different sample receiving containers 1 can be examined one after the other.

For this purpose, the sample receptacle 1 is placed in a gas chromatographic device, which comprises an externally sealed sample application head 5 , as described, for example, in EP-A-03 18 705. The sample application head 5 is connected to a coupled heating and cooling device 6 , into which the sample receptacle 1 is inserted, whereby the injection needle 4 located on the sample receptacle 1 passes through the seal of the sample application head 5 sealed.

The connection 2 of the sample receptacle 1 is connected to a carrier gas line 7 , which leads upstream to a flow regulator 8 , a quick-closing valve 9 , a front pressure regulator 10 and a carrier gas inlet 11 .

The sample application head 5 also has a carrier gas connection, which is connected via a flow regulator 12 to the front pressure regulator 10 . Furthermore, the sample application head 5 is part of a cold sample application system 13 , as described for example in DE-C-34 48 091. The split sample-operated cold sample feed system 13 has a (for example via the supply of liquid gas such as liquid nitrogen) coolable as well as heatable, tubular sample feed chamber 14 with a small package 15 of z. B. 1 cm length for adsorbing substances to be examined, which may also consist of polyphenylene oxide, and a split outlet 16 , which is connected to a solenoid valve 17, which is followed by a pressure gauge 18 and a back pressure regulator 19 leading to a split outlet. In addition, the solenoid valve 17 is connected to the output of the flow regulator 12 .

The output of the cold sample application system 13 leads to a gas chromatographic capillary column 21 located in a heatable space 20 , which is connected to an analyzer 22 .

The combined heating and cooling device 6 is set up in such a way that it regulates the sample receptacle 1 approximately by means of electrical resistance heating or the like at a speed of approximately 5 to 30 ° C./min, in particular 15 to 25 ° C./min, until can heat up to around 300 ° C. In addition, it can be brought very quickly back to about ambient temperature, for example by passing liquefied gas, for example liquid nitrogen, in order to be able to start again at about ambient temperature each time a new sample container 1 is inserted.

In contrast, the heatable sample feed chamber 14 can be heated up very quickly, for example at a speed of about 10 to 20 ° C./sec.

After inserting a sample storage container 1 is first at about ambient temperature, that is purged in the range of about 10 to 40 ° C, with oxygen-free carrier gas from the carrier gas input 11 of the sample receiving container. 1 The carrier gas emerging from this passes via the injection needle 4 into the sample application chamber 14 , which is also approximately at ambient temperature, and from there to the split outlet 16 . As a result, practically all of the oxygen which is located in the sample application container 1 and which, at higher temperatures, could lead to reactions which could distort the analysis result, is removed from the overall system. Nevertheless, components of the substances to be investigated, which are desorbable by the carrier gas stream even at low temperatures from the package located in the sample receiving container 1 , can be retained in the sample application chamber 14 by the package 15 cooled, for example, to approximately -150 ° C., so that they become later analyzes are available and are not lost because the carrier gas passes through the sample feed chamber 14 before reaching the split outlet 16 .

Only when the oxygen is removed, the Probenauf will discharge tank 1 slowly heated with, for example, 20 ° C / min to about 250 ° C, whereby the adsorbed substances therein according freige sets and rinsed with the carrier gas into the further cooled sample application chamber fourteenth There, the entrained substances are adsorbed by the packing 15 , while the carrier gas is discharged via the split outlet 16 .

After reaching the maximum temperature, the quick-closing valve 9 is closed and the flow-controlled carrier gas supply takes place via the carrier gas connection of the sample application head 5 (part of the carrier gas being discharged via the solenoid valve 17 ), while the sample application chamber 14 and thus its packing 15 are very fast, for. B. at 12 ° C / sec, is heated. As a result, the substances to be examined are very quickly desorbed from the packing 15 by carrier gas and fed to the now heated capillary column 21 and finally to the analyzer 22 . As a result, narrow peak widths and good separation in the capillary column 21 are achieved despite the gentle and prolonged desorption from the packing of the sample receptacle 1 , because the packing 15 has a sufficiently small length and the heating thereof takes place extremely quickly.

Since during the initial free purging a small portion can reach the carrier gas with a correspondingly low percentage of oxygen in the then still cold capillary column 21, one can distinguish between cold sample introduction system 13 and capillary column 21 turn, the carrier gas for pneumatic closure of the passage, optionally, a branching piece 23 to Capillary column 21 is supplied.

In order for the process can be substantially immediately then repeated for the content of a further Probenauf exception container 1 can already during the analysis of the previous sample receiving container 1 from the heating and cooling device 6 removed, while the latter to be cooled to about ambient temperature. After inserting a new sample container 1 , the device is ready for use again when the analysis is complete.

Claims (8)

1. A method for the qualitative and / or quantitative search for substances from a gaseous starting material, the substances being taken up by a carrier gas and fed to an analyzer via a gas chromatographic capillary column, characterized in that a defined amount of gaseous starting material is adsorbed by a first one Pack led, the first pack flushed at about ambient temperature with a carrier gas which is passed through a second adsorbing, cooled pack, then slowly heated to a predetermined final temperature while passing carrier gas, which is then further passed through the cooled second pack and then the substances adsorbed on the second, cool pack are desorbed under carrier gas supply and very rapid heating of the second pack and fed to the capillary column. 2. The method according to claim 1, characterized in that the first pack at a rate of about 5 to 30, in particular 15 to 25 ° C / min, is heated. 3. The method according to claim 1 or 2, characterized in that the second pack at a rate of about 10 to 20 ° C / sec is heated. 4. The method according to any one of claims 1 to 3, characterized records that the substances to be examined are flushed with gas bar, a first package receiving sample receptacles will. 5. A device for the qualitative and / or quantitative search of substances from a gaseous starting material, the substances being taken up by a carrier gas and fed to an analyzer ( 22 ) via a gas chromatographic capillary column ( 21 ), characterized in that a heating device ( 6 ) for receiving and heating an interchangeable sample receiving container ( 1 ), which contains a first pack and can be flushed with gas, is provided, the sample receiving container ( 1 ) being connectable to a carrier gas source ( 11 ), and that being connected to the heating device ( 6 ) coolable and heatable sample application chamber ( 14 ) for the capillary column ( 21 ), which contains a second package ( 15 ) and has a split outlet ( 16 ). 6. The device according to claim 5, characterized in that the second pack ( 15 ) has a relatively short length compared to the first. 7. The device according to claim 5 or 6, characterized in that the sample receiving container ( 1 ) with an injection needle ( 4 ) and the sample application chamber ( 14 ) is preceded by a sample application head ( 5 ) for sealing the injection needle ( 4 ). 8. Device according to one of claims 5 to 7, characterized in that the sample application chamber ( 14 ) has its own, in particular flow-controlled carrier gas supply.