DE919510C - Method for the detection of carbonic acid in air or other gases - Google Patents

Description

Method for the detection of carbon dioxide in air or other gases the known chemical methods for the detection of carbonic acid are all based on the Color change of acid-base indicators. The carbon dioxide detection is therefore unspecific and assumes that the air is not acidic except for carbon dioxide or contains basic gases or vapors. In addition, there are difficulties with such To fix indicators, for example, on a carrier material, as required is if the detection is carried out with the help of the known detector tube method shall be. The known carrier materials are not opposite to the indicator sufficiently indifferent.

The invention has set itself the task of eliminating the shortcomings of the known Procedure to fix. It solves this problem in that it resolves a specific issue Carbonic reagent used.

The invention is that a reagent mixture of an organic Amine and dinitrophenylhydrazine is used in alkaline solution. The reagents result in a strong brown colored reaction product in the alkaline solution, the is decolorized by carbonic acid. The discoloration or the color change is clear recognizable and dependent on the amount of carbon dioxide.

The amount of air in contact with the reagent is measured and if the discoloration process is observed, the carbonic acid content can be derived from it the test air can be determined with great accuracy. The reaction is specific so that foreign gases do not interfere. Apparently forms from the carbonic acid and the Amine a carbamic acid ester that is able to react with dinitrophenylhydrazine.

Especially when the method is used in detector tubes should, it will be so led that the reagents only immediately applied to a carrier material, for example the test tube, before the test are. The reagent solution can be melted into ampoules by known methods and so, for example, can be arranged above the carrier layer of the test tube. Immediately before the test, the ampoules are destroyed with a spike, so that the reagent wets the carrier mass of the test tube.

The method according to the invention is based on an exemplary embodiment explained in more detail: In a tube made of transparent plastic is known in Way a carrier layer made of ceramic material with a grain size of 0.5 to 1 mm is arranged. Two ampoules are placed above this carrier layer, one of which Ampoule an alcoholically saturated solution of 2,4-dinitrophenylhydrazine and IO / o Contains diethylamine; the second ampoule is filled with an aqueous 1N sodium hydroxide solution. The test tubes are closed in the usual way.

Before the test, the ampoules are destroyed, so that the reagent mixture flows onto the carrier mass.

This turns dark brown. When passing through carbonated Depending on the carbonic acid content, air becomes discolored more or less quickly of the reagent observed. If the amount of air passed through is measured, then the carbon dioxide content can be inferred from the intensity of the color change. If the air is sucked through the test tube with the help of a gas detection pump, then can be based on the number of pump strokes that determine the air volume and which is necessary, for example, until the reaction mixture is completely decolorized the carbon dioxide content of the test air can be determined.

The method allows the carbon dioxide content of the Air in the limits between 0.5 and 5 per cent, that is precisely in the limits that are physiological are of particular interest.

Instead of the diethylamine mentioned as an example, others can also be used Amines of aliphatic or aromatic nature can be used, e.g. B.

Dimethylaniline.

PATENT CLAIM: I. Method for the detection of carbonic acid in air or other gases, characterized in that the reagent used is an alkaline alcoholic Solution of an organic amine and 2, 4-Dinitrophenylhydrazins is used.

Claims (1)

2. The method according to claim I, in particular for implementation in test tubes, characterized in that the alkali and the other reagents are preferably in Destructible ampoules stored separately and only immediately before the test a ceramic carrier mass can be applied to the test tube.