DE677675C - Process for the production of durable disinfectants - Google Patents

Description

Process for making durable disinfectants It is known, aqueous solutions of rhodan salts mixed with acids or acid salts to use as a disinfectant. When bringing together the aqueous R.hodan salt solutions with acids or acidic salts, however, the disadvantage shows that the solutions after develop hydrogen sulfide in a short time and that the acidity of the solutions accordingly more and more when standing. decreases.

It has now been shown that this inconvenience can be avoided, if you look at the manufacture of these disinfectants, their solutions are very low Amounts of such metals or metal compounds are added which cause the evolution of hydrogen sulfide impede. . Suitable additives for this are in particular copper and its Compounds, molybdic acid and in ge. to a certain extent also chromium sesquioxide into consideration, whereas such substances as titanic acid, vanadic acid, uranium oxide, manganese oxide or Ceria, which are unable to prevent the evolution of hydrogen sulfide. According to the amounts of the metals or metal compounds in question to be added to the invention correspond to those customary for the use of catalysts, and are therefore very important less than the stoichiometrically required to implement the facing rhodanides.

It is known to use a mixture of rhodan compounds and copper compounds to be used as a dressing agent for seeds. Then the Rhodan connections and copper compounds are used in a stoichiometric ratio so that Copper rhodanur is able to separate from its solution. The effect on which it is for the present invention, namely that otherwise when bringing together Rhodan salt solutions with acids or acidic salts rapidly occurring hydrogen sulfide formation to prevent or hold back was -neither recognized in the known method still aimed at. About the addition of acids or acidic salts to the rhodan compounds there is generally no question at all. Only in one place does it say that premature excretion of copper rhodium in the absence of reducing agents can be avoided or delayed by adding acids or acidic salts. But that in this case the copper compounds would be able to produce hydrogen sulphide to prevent was also not recognized.

The effect of the method is illustrated by the following comparative examples: i. If 25 g of sodium rhodanide, 25 g of potassium bisulphate, 4509 water are dissolved to 5009 , such a 10% solution shows an unpleasant elimination of hydrogen sulphide after standing for one or two days, which continues continuously.

2. Solving the other hand, 2 5 g sodium thiocyanate, a59 potassium bisulfate, water to 4509 5oog and sets to 0, O5 grams of copper sulfate crystallized (= o, i ° / o of the salt mixture = 0,0i0% of ioo / o solution) so this solution takes on a yellow to reddish-yellow color. The odor of hydrogen sulfide does not make it noticeable even after long standing.

3. Dissolve 25 g of sodium rhodanide, 25 g of potassium bisulfate, 450 g of water to 50o g and sets 0.02 g of metallic copper (= 0.0q.0 / 0 of the salt mixture = 0.00q, ° (-0 of the 100% solution), expediently added in fine powder form, this results in a durable, also yellowish-red solution, which is completely free of odor Hydrogen sulfide remains.

4. If you dissolve 25 g of sodium thiocyanate, 25 g of potassium bisulphate, 450 g of water to 500 g and add 0.05 g of Mo 0g, a long-lasting solution, free of the evolution of hydrogen sulphide, is produced here as well. It is colored dark red.

The solutions that can be produced by the present process are suitable are very good for disinfection purposes and have an approximately constant acid titer on.

Claims (1)

Y ti TENTANS.PIZUCIi Process for the production of durable disinfectants from acid rhodanides, characterized in that their solutions are very low Quantities of such metals that are used as catalysts bsw. Metal compounds are added, which the @ hydrogen sulfide evolution impede.