DE102009023634A1 - Apparatus for temporary storage of volatile chemical substance, has multiple chambers, through which ambient air flows in air passage, and each chamber has specific adsorption material for adsorption of specific volatile chemical substance - Google Patents

Abstract

The apparatus has multiple chambers (2), through which ambient air flows in an air passage (1). The chambers are arranged side by side lateral to the flow direction, or one behind the other in the flow direction. Each chamber has a specific adsorption material for the adsorption of a specific volatile chemical substance. The adsorption material is a highly selective molecular imprinted polymer.

Description

The The invention relates to a device according to the preamble of the claim 1.

It is known in the ambient air existing volatile chemical substances (VOC) by means of an enrichment and desorption process to detect or measure. As a result, for example, the most commonly used exclusives, such as 2,4,6-trinitrotoluene (TNT) detected. It is used as an enrichment or adsorption material a molecularly imprinted polymer (MIP - Molecular Imprinted polymers), d. h., Compound specific to nitroaromatics nanoscale polymer particles used. The the fleeting ambient air containing chemical substances is absorbed by the adsorption material, the so-called MIP filter, which conducts molecules of these substances, in the present case 2,4-DNT molecules, selective be absorbed. Subsequently, the nitroaromatic Desorbed molecules under heated nitrogen reflux and a sensor unit, for example, as a fluorescence detector is formed, fed. In this case, the fluorescence detector comprises Fluorescent polymer layers on glass slides interacting with the nitroaromatics, resulting in significant extinction the polymer fluorescence occurs.

From the DE 10 2007 048 185 A1 For example, a device for measuring volatile chemicals using the enrichment and desorption method with a thermal desorption unit present on a selective adsorption material is known. The thermal desorption unit is connected to channels for introducing ambient air to be examined and for passing desorbed molecules of the volatile chemical substances to a sensor unit for detecting the desorbed molecules of the substances to be measured.

These However, known device allows the measurement only a single volatile chemical substance. Should several Substances can be detected, this can only be done sequentially, by the measurement of a substance that for this suitable adsorption material by an adsorbent material suitable for another substance is replaced. This makes the measurement cumbersome and time consuming, and it is not possible at the same time to determine the concentrations of the substances to be detected.

It Therefore, the object of the present invention is a device for temporary storage of the ambient air extracted volatile chemicals (VOCs) under application a selective enrichment and desorption process in one indicate a chamber containing adsorption material, with the in easy way quickly and simultaneously the concentrations of several Volatile chemical substances measured in the ambient air can be.

These The object is achieved by a device solved with the features of claim 1. advantageous Further developments of the device according to the invention emerge from the dependent claims.

Thereby, that in an air passage several of the ambient air can be flown through Chambers, each containing a specific adsorption material for the adsorption of a particular volatile chemical substance contained, transverse to the flow direction side by side and / or can be arranged one behind the other in the flow direction at the same time more volatile in the ambient air Chemical substances in each case in a suitable adsorbent material get saved. Having a sufficient amount of relevant substances In the individual chambers was adsorbed, the desorption process be initiated, in which the adsorbed or stored Substances again to a suitable carrier gas, preferably also the ambient air to be discharged. The au with this way Substances enriched air is then fed to sensors, due to the enrichment carried out the individual To be able to measure substance concentrations clearly more accurately.

Preferably Each chamber is a device for achieving a selective Desorption of the volatile chemical stored in the chamber assigned. This makes it possible to use any combination of the substances present in the ambient air simultaneously to capture. The respective devices for achieving desorption are advantageous selectively controllable for each chamber. He follows the desorption for example by increasing the temperature of a substance-storing adsorption, so can these devices are designed as heaters, the allow individual heating of the individual chambers. It is also a control of the intensity of the heating possible because of the dependence of the degree of desorption from the temperature for the different adsorbents is different.

Another way to control or restrict the detection of certain of the substances present in the ambient air is that, although adsorption materials are provided for a larger number of substances, especially in juxtaposed chambers these controllable on the input and / or output side of the air flowing through Apertures for a partial or complete block the flow of air through the respective chamber. This can be prevented in certain Chambers the adsorbent material is enriched with the associated substance at all or in the case of an enrichment of the desorbed substance is led out of the chamber.

to Increasing the accuracy of measurement, it is recommended that Chambers filters to remove unwanted substances upstream of the ambient air. Undesirable substances are z. As dust or water, which, if not in negligible amount were recorded in the chambers, significantly falsify the measurement results can. The filters are therefore preferably made of molecular sieves, do not let the larger particles through, taking it useful, several sieves with increasingly smaller passage size to be arranged one behind the other in the air flow. Other filters can by electrostatic fields, adsorber materials or by temperature variations will be realized. Also optical filters for eliminating harmful Radiation is possible.

The Carrier gas loaded with the desorbed substances will be exhausted Chambers to these downstream sensors for each volatile chemical substances. As sensors can be any known, for the particular application suitable detectors are used. Only be exemplary here called fluorescence detectors or chemosensors.

For the detection of hazardous substances, in particular ABC hazardous substances, Polymers have proven to be suitable adsorbent materials. Particularly advantageous are highly selective molecular imprinted Polymers (MIP), each for the adsorption of a particular substance can be trained.

Between The chambers and sensors can be provided with guide devices be that exiting from a particular chamber, with the associated desorbed substance laden carrier gas to a specific Lead sensor. This can ensure that Each substance to be detected to an optimal sensor for him arrives.

The Detection of hazardous substances is only mentioned as an example. The inventive Device may, for. B. also used as a so-called "scent gun" become.

in this connection In a limited space, the air is mixed with certain fragrances offset and then fed to the device, wherein the individual fragrances through the use of appropriate adsorption materials be stored selectively in the chambers. By selective desorption can then be individual fragrances or any combination of these at desired times in a larger one Space are emitted to produce a pleasant scent in these.

The Invention will be described below with reference to one shown in the figure Embodiment explained in more detail. This shows a schematic sectional view of an inventive Contraption.

In an air passage 1 with preferably round or square cross-section are several chambers 2 each containing an adsorbent material, wherein the adsorbent materials in the individual chambers 2 are different. Each adsorption material is particularly suitable for adsorbing a particular one in the air passageway 1 From top to bottom passed ambient air contained volatile chemical substances. The chambers 2 are designed so that on the one hand allow passage of the air through the adsorbent material contained in them, on the other hand, however, prevent escape of the adsorbent material. In the figure are a total of nine chambers 2 in an arrangement each of three transverse to the direction of air flow adjacent and from three in the air flow direction one behind the other chambers 2 shown. The number and arrangement of the chambers 2 However, they can be chosen according to the particular application. Between an upper funnel-shaped area 3 and a lower funnel-shaped area 4 of the air passage 1 In known manner, a pressure difference is generated such that the air from top to bottom through the air passage 1 flows. The air laden with different volatile chemicals flows through all the chambers 2 , where the individual substances in the chambers 2 be adsorbed selectively, so that in each of the chambers 2 a substance determined by the particular adsorption material is stored.

In the funnel-shaped area 3 There are several filters 5 . 6 and 7 , the unwanted substances from the air passage 1 filter out incoming ambient air. Such undesirable substances are especially dust and water, which, when present in larger quantities in the chambers 2 which may affect the determination of the concentration of volatile chemical substances in ambient air. In the present embodiment, the filters 5 . 6 and 7 Molecular sieves for separating out solid particles, the mesh size being from the outermost filter 5 to the innermost filter 7 decreases.

In the funnel-shaped area 4 not shown sensors are arranged. The design of the sensors is arbitrary and is essentially determined by the nature of the volatile chemical substances to be detected. It can be uniform Sen sensors or different sensors. Not shown Leitvorrichtungen can from the chambers 2 exiting air so to the sensors that conduct certain chambers 2 assigned to specific sensors. Also, controllable apertures can be above and below the chambers 2 in the air passage 1 be arranged, which determines the distribution of air flow over the cross section of the air passage 1 can change in the desired manner.

After the adsorption material in the chambers 2 sufficiently enriched with the respective volatile material, the desorption process can be turned on. This is done by heating the respective adsorption material. Every chamber 2 is individually heated, so that it can be determined which suitable material is released at any time by the respective adsorption material and guided with the carrier gas, preferably the ambient air to the sensors or a desired sensor.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102007048185 A1 [0003]

Claims (18)

Apparatus for temporarily storing volatile chemical substances (VOC) extracted from the ambient air using a selective enrichment and desorption process in a chamber containing an adsorption material ( 2 ), characterized in that in an air passage ( 1 ) several chambers through which ambient air can flow ( 2 ), each containing a specific adsorption material for the adsorption of a particular volatile chemical substance, are arranged side by side transversely to the flow direction and / or in the flow direction one behind the other. Device according to claim 1, characterized in that each chamber ( 2 ) a device for achieving a selective desorption of the in the chamber ( 2 ) associated volatile chemical substance is assigned. Apparatus according to claim 2, characterized in that the respective devices for achieving a desorption for each chamber ( 2 ) are selectively controllable. Device according to Claim 2 or 3, characterized that the devices for achieving a desorption heating devices are. Device according to one of claims 1 to 4, characterized in that the chambers ( 2 ) on the input and / or output side of the air flowing through controllable orifices for a partial or complete blocking of the air flow through the respective chamber ( 2 ) exhibit. Device according to one of claims 1 to 5, characterized in that the chambers ( 2 ) Filters ( 5 . 6 . 7 ) are upstream of the removal of undesirable substances from the ambient air. Device according to claim 6, characterized in that the filters ( 5 . 6 . 7 ) Have molecular sieves for removing particles exceeding a certain size. Device according to claim 7, characterized in that that several molecular sieves with increasingly reduced passage size the particles are arranged one behind the other. Device according to claim 6, characterized in that the filters ( 5 . 6 . 7 ) are formed for the separation of water from the ambient air. Device according to one of claims 1 to 5, characterized in that the chambers optical filter upstream. Device according to one of claims 1 to 10, characterized in that the chambers ( 2 ) Sensors for the desorbed volatile chemical substances are connected downstream. Device according to claim 11, characterized in that the sensors form a fluorescence detector. Device according to claim 11, characterized in that that the sensors form a chemosensor. Device according to one of claims 1 to 13, characterized in that the adsorption material a Polymer is. Device according to claim 14, characterized in that that the adsorption material is a highly selective molecular imprinted Polymer (MIP) is. Device according to one of claims 1 to 15, characterized in that the adsorption material for selective storage of ABC hazardous substances is formed. Device according to one of claims 1 to 15, characterized in that the adsorption material for selective storage of fragrances is formed. Device according to one of claims 11 to 17, characterized in that between the several chambers ( 2 ) and a plurality of sensors guide devices for the targeted guidance of certain chambers ( 2 ) exiting substances are provided to certain sensors.