DE479766C - Manufacture of sodium sulfide or similar chemicals in bodies of predictable shape and size - Google Patents

Description

Manufacture of sodium sulfide or similar chemicals in bodies of predeterminable shape and size. There are known methods of manufacture of sodium sulfide or similar chemicals in bodies of predictable form and size, which consist in the fact that the sulfide is tempered and, if necessary, pretreated Lets drip surfaces. In this way, bodies of uniform weight and weight are obtained from oblate to almost hemispherical shape.

It has been shown that when using flat surfaces, as far as the weight and shape of the corpuscles are concerned, is bound to certain limits, d. H. the thickness of the corpuscles cannot be increased at will while at the same time Increase in their weight. This is due to the fact that as a result the relatively large heat content of the melt, the heat is not dissipated as quickly It can be that a crystal skin forms, which the spread of the drop limited to a desired level.

It has been found that this inconvenience can be avoided if one the areas on which the molten chemicals are allowed to drip, with troughs or provides wells of any shape and the drops expedient choose so large that the form is just filled. Surprisingly, it has found that the corpuscles emerge from such depressions just as easily detach them as they detach from flat surfaces, provided that the Regulates the dissipation of heat in such a way that the surfaces do not take too high a temperature, because otherwise caking is to be expected. You can do this by -the heat capacity of the surfaces to the heat content of the droplets of melt in a brings a certain ratio. If you use z. B. a surface made of metal in the form a plate provided with troughs, so can by using thicker or thinner sheet metal increase or decrease the heat capacity. It was also found that you have to regulate the cooling rate within certain limits, because If the cooling is too rapid, corpuscles are obtained which have internal tensions and in the case of mechanical stress, e.g. B. light pressure or shaking, into pieces shatter. The time; which is necessary for cooling can be, for. B. in the following Determine way. After making a number of trough-shaped depressions in an iron sheet filled with drops of sodium sulphide, if possible of the same size one observes the cooling down until a clear noise (crackling) indicates that the corpuscles have become detached from the base. Shattering the corpuscles after complete cooling, e.g. B. when shaking gently in a Glass bottle, the cooling took place too quickly. One must therefore either adjust the thickness reduce the amount of iron or, if artificial cooling has been used, moderate this accordingly.

The process can be carried out continuously and discontinuously.

Claims (3)

PATENT CLAIMS: i. Process for the production of sodium sulphide or similar chemicals in bodies of predetermined shape and size according to patent 424 193, characterized in that depressions, e.g. B. depressions, provided areas, the depressions, etc. effect the shaping. 2. The method according to claim i, characterized by the use of wells or other recessed sheets made of metal or metal alloys, the thickness of which is so dimensioned that, by virtue of its heat capacity, it also absorbs the heat derive such rapidity that a) the bodies stick to the surface as a result of too slow cooling is avoided, b) internal stresses - a The result is too rapid dissipation of heat - free, mechanically resistant bodies can be obtained. 3. The method according to claim i and 2, characterized in that the dissipation of heat is supported by artificial cooling.