DE1102297B - Method and device for continuously measuring the radioactivity of substances contained in a liquid - Google Patents

Description

Method and device for the continuous measurement of radioactivity of substances contained in a liquid For continuous measurement of the Radioactivity from in a liquid, e.g. B. water, contained substances it is necessary to concentrate the radioactive substances contained in the liquid, in order to achieve reliable measured values with the normally occurring low activity obtain.

In one known facility, this focus occurs on the way that the liquid to be examined in a steady flow in a heated air stream is sprayed and evaporated, whereupon the mixture of air and steam I filter through a continuously moving filter strip.

The substances that were dissolved or suspended in the liquid are collected in the filter strip and fed to a radiation detector.

This device has the main disadvantage that the production des Luftstro, m.es air used must be carefully filtered beforehand, whereby any residual air activity remaining in spite of everything worsens the measurement accuracy. Also, the filter effect of the filter strip is not perfect and a part of it Active substance originating from the liquid escapes through it and becomes not recorded during measurement. The walls of the air duct in which the evaporation takes place, are also radioactively contaminated and deteriorate, then also the measurement accuracy.

There has also been proposed a device in which a discontinuous forthewegter, recessed metal strip is provided in which Wells brought dosed amounts of the liquid to be measured to evaporate be, whereupon the Rüclistände are led past radiation detectors, their Measure activity. The metal strip is either used only once, which is a lot is expensive, or it is made by means of a special, complicated device washed out, although the result is problematic as it is very difficult is to completely remove the active particles by washing.

The present invention relates to a method for continuous Measuring the radioactivity of substances contained in a liquid, Ibei which the disadvantages mentioned are eliminated according to the invention in that the liquid, with the radioactive substances contained in it in a steady stream uniformly moving band of absorbent material fed to this for evaporation and then measured the radioactivity of the substances deposited on the tape will.

The invention .2ur implementation of the method is characterized in that that a feed device provided with a metering device for the to be controlled Liquid is provided which carries the liquid one under the supply device uniformly moving Blan, d of absorbent material, and that further a heating device heating the belt and at least one radiation detector which the tape is also fed past are provided.

In the drawing, an exemplary embodiment of the invention is schematic shown.

From a feed device 1 with a metering device, not shown is provided, the liquid to be measured becomes a uniform in a steady flow moving belt 2 made of absorbent material, e.g. B. filter paper fed to the a heating device 3 is passed. The tape 2 is passed on to a radiation detector 4 vor.beigeführ, which actuates a display device 6 via an amplifier 5.

Due to the influence of the heat supplied by the heating device 3 the liquid in volume 2 evaporates and leaves the liquid contained in it Suly punch back in this. In this way you can use a certain tape area Residues of a considerable amount of liquid are concentrated, whereby the Concentration ratio by choosing the liquid flow and the feed speed of the belt can be adjusted with the appropriate supply of heat. D. the display device 6 then indicates a correspondingly increased radioactivity.

A strip of filter paper is preferably used as the band 2, However, it can also be a rextile tape or one made from another absorbent material or porous material can be used.

The Zufuhrvorric.htun.gl consists of one in the DarsCesteIltën example outlet pipe 8 connected to a container 7.

The dosing device of the feed device 1 did the purpose of a to deliver an even flow of liquid. In its simplest form it can This is called keeping the liquid level in the container constant by means of a throttle point be formed in the outflow tube 8.

To distribute the liquid over a larger area of the belt 2- and the supply device can thereby achieve faster evaporation 1 a pivoting movement in the <longitudinal direction of the belt 2, transversely to this, or perform a combination of these movements.

The device shown has the advantage that neither an air pump, an air filter or nebulizer for the liquid is also required is. It is therefore simple in construction, requires little maintenance and offers more operational safety. The measurement results are more accurate than the known ones Facilities since the influence of the radioactivity of the air and by the efficiency of the deposit or in the air flow, en particles on the There is no filter belt or activity remaining on the collecting belt.

Claims (4)

CLAIMS: 1. Method for continuously measuring radioactivity of contained in a liquid Substances, characterized in that the Liquid with the radioactive substances it contains in an even Stream fed to a uniformly moving band of absorbent material this made to evaporate and then the radioactivity of the deposited on the tape Substances is measured. 2. Device for performing the method according to claim 1, characterized characterized in that a feed device provided with a metering device (1) is provided for the liquid to be controlled, which the liquid a Band (2) of absorbent material moved uniformly past under the feeding device Material supplied, and that a further heating device (3) which heats the belt and at least one radiation detector (4), past which the tape is also guided will be provided. 3. Device according to claim 2, characterized in that the feed device (1) is designed and mounted in such a way that it is longitudinal and / or transverse to the direction of the belt (2) is pivotable. 4. Device according to claim 2, characterized in that the tape (2) consists of a strip of filter paper. Documents considered: German Auslegeschrift No. 1,028,248; Atompraxis, Vol. 4, 1958, No. 9, p. 331.