DE943666C - Dust control method - Google Patents

Description

Methods of combating dust It has been found that one can get dust with the help of aqueous solutions of acrylic acid amide can fight by him first moistened with such solutions and then that adhering to the dust particles Acrylic acid amide by sprinkling the dust with an aqueous solution of one of the brings conventional polymerization catalysts to the polymerization. Because the polymerization of the acrylic acid amide does not occur immediately after the addition of the catalyst, one can According to the present invention, the dust to be combated with an aqueous solution moisten with acrylic acid amide, which already contains the polymerization catalyst dissolved. In a preferred embodiment of the invention, the polymerizable substance is used not pure acrylic acid amide used, but the technically easily accessible Saponification products of acrylonitrile, which essentially: consist of acrylic acid amide.

By varying the concentration of the aqueous solution of the acrylic acid amide or the saponification products of acrylonitrile you have it in hand, the dust either to solidify in such a way that it can be removed from its base by the usual mechanical Means can no longer be redeemed or it is in such a state the solidification is that even with complete drying out a Dust can no longer enter. A sufficient effect is generally achieved with solutions containing 7.5 to 10% acrylic acid amide.

A rapid penetration of the entire mass of dust from the solution 'To effect the acrylic acid amide or the saponification products of acrylonitrile, .hat it has been found to be expedient to add a wetting agent to the solutions.

Polymerization catalysts, which are used for the polymerization of the Dust particles applied aerylic acid amide can be used, for. B. peroxides. and salts of organic and inorganic peracids. The effect of these catalysts can be achieved by adding certain activators, such as salts of sulfurous acid, the dithionigenic acid and - oxymethane sulfinic acid or other organic sulfinic acids, can still be increased.

-The invention has made it possible to effectively control dust wherever it occurs. In many cases, this not only prevents damage to health, but also increases operational safety (e.g. in mines). The repentance procedure has the advantage of being very easy to carry out. Another advantage of the present process is that the solidification of the dust occurs relatively quickly. Under normal conditions, this takes place after. Gelatinization takes place between 30 and 60 minutes, and after an average of 24 hours an optimum of solidification is observed. After solidification with the aid of the invention. In the process, the dust can be removed by mechanical means if desired. EXAMPLE 1 100 kg of acylamide solution are dissolved in 100 kg of sodium oxymethanesulfinate. And i kg of a 70% paste of the sodium salt of an aliphatic sulfonic acid, such as that formed in the sulfochlorination of C14 to C8 hydrocarbons and subsequent saponification with sodium hydroxide solution, dissolved. With this solution a surface becomes like this. sprayed so that the dust lying on it is moistened. The same area is aftertreated with a solution of 1 kg of potassium persulfate in 50 liters of water. After 30 to 60 minutes gelatinization of the moistened dust occurs, after 24 to 48 hours it has dried to a hard coating.

Example 2 Spread a sheet of any thickness on a drying sheet Layer of titanium ore (ilmenite) and successively moisten the 480 cm2 Surface with 2o.cms of an i49 / aigen acrylic acid amide solution containing 0.2 g of oxymethane sulfinic acid Contains sodium, and 5 cms of 5% potassium persulphate solution by spraying the solutions through a fine nozzle. After drying out, a hard top layer has emerged. Example 3 A heap made of a chrome ore concentrate is added per m2 with Soo cm3 of a r4o / aigen acrylic acid amide solution, which shortly before use - on i kg of acrylic acid amide 10 g of sodium oxymethanesulfinate and 15 g of potassium persulfate were added are sprayed. The surface is hardened after 24 hours; she offers you adequate protection against atmospheric influences of all kinds. Example 4 Treated an ore dump consisting of a chrome ore concentrate, initially per m2 with 4oo cm2 Tap water. And then with 4oo cms acrylic acid amide solution containing the same additives as in example 3 contains. After drying, a rock-hard surface has emerged. -

Claims (3)

PATENT CLAIMS: i. Process for combating dust, characterized in that it is treated with aqueous solutions of. Acrylic acid amide and polymerization catalysts for acrylic acid amide moistened .. -. 2. The method according to claim t, characterized in that that acrylic acid amide is used in the form of the saponification products of acrylonitrile. 3. The method according to claim i; characterized in that the aqueous solutions of acrylic acid amide and the polymerization catalysts are used in succession come and that they have wetting agents and activators for the polymerization catalysts contain.