DE446410C - Production of a fine powdered carbide - Google Patents

Description

Production of a fine powdered carbide. It is already known to divide liquid carbide into individual drops by introducing a gas stream. In this known method such gases are used, which on the carbide droplets the formation of a layer that acts as a protection for the material against Air and moisture in storage is suitable.

The present method relates to the production of a fine powder Carbide that is said to be suitable for azotization. It must therefore be vulnerable to gases Have surfaces. The process is that the carbide flowing out of the furnace by a gas stream in the upper part of a gas stream that does not react harmful to carbide is atomized with cooled walls provided shaft. As a gas, for. B. Methane, water, nitrogen or mixtures of these gases are used.

If nitrogen is used as the atomizing agent, it occurs in the At the same time, a pre-azotization of the carbide is created for the subsequent Extraction of calcium cyanamide is not undesirable.

The present method has the advantage that the at the amount of heat resulting from the production of the carbide for the production of calcium cyanamide can take advantage of what was previously not possible; because so far one has left that Liquid carbide flowing out of the furnace run into pans and solidify. That froze and completely cooled carbide is then ground to powder, which again except for Azotierung temperature is heated. Since the atomization in one Well with cooled walls is going on, and also for the purpose of fine atomization : an extremely powerful gas flow is needed, occurs when the gas flow meets with the carbide a cooling of the fine carbide particles so strong that they can no longer bake together when they hit the cooled walls.

Appropriately, the gas stream granular material, for. B. blast furnace slag, be added, which at the prevailing temperature on the azotization of the carbide does not have a harmful effect. The liquid carbide coats the granular one when it cools down Material, whereby a large carbide surface favorable for the subsequent azotization is created.

The walls of the carbide used to hold the finely powdered The shaft can be cooled by nitrogen, which is used for azotation Carbide is preheated to a favorable temperature while the carbide is in the shaft is cooled to a temperature favorable for reaction with nitrogen.

The drawing shows an apparatus for carrying out the method for example reproduced.

i is the normal type of carbide furnace from which the liquid carbide flows into the covered funnel 2. Through the closable side opening 3 of the funnel 2, the contents of the oven can be loaded by poking rods. known way be moved. The funnel 2 opens into the shaft q. and is after the shaft lockable through the slide g.

In the upper part of the shaft q. opens the nozzle 6, -through the z. B. Nitrogen in the shaft q. can be blown, the nitrogen can be blown through the Fan 7 can be brought to the necessary pressure. The second protrudes into the nozzle 6 Nozzle 8 through which solid material, e.g. B. powdered blast furnace slag, can be fed. The gas is discharged through the nozzle 9 of the shaft q.

The part io of the wall of the shaft ¢ is designed as a hollow cylinder, in order to introduce gas through the nozzle i i into this part to cool the shaft contents to be able to, which is discharged through the nozzle 12. The lower side opening of the shaft ¢ can be closed by the slide 13: The one from the funnel 2 after opening the slide 5 in the shaft 4 entering liquid carbide is through the gas stream emerging from the nozzle 6 is atomized and strongly cooled at the same time. In the shaft q. accordingly, fine-powdered carbide still sinks proportionally at the front high temperature.

`If nitrogen is used for atomization, then takes place at the same time a pre-azotization of the carbide takes place. The unused nitrogen can get through the nozzle 9 are fed to the Azotierofen.

The one flowing through the hollow cylindrical part io of the shaft jacket and nitrogen, which is used to cool the contents of the shaft, is also added to the azotizing furnace fed. The nitrogen passed through the shaft jacket is used for azotization preheated by carbide favorable temperature.

The carbide can help increase the fine atomization as it emerges are fed from the shaft ¢ after opening the slide 13 of a mill, through which it is ground to the necessary fineness. The one that drives this mill necessary force is in proportion to the force that has been used to crush and Grind the whole. Carbide blocks is necessary, relatively low. Direct after the carbide has emerged from the shaft ¢ b # between. from the mill it becomes that Supplied Azotierofen, in which it is azotized to calcium cyanamide in a known manner. After that it is advantageous to use carbide that is already on to react with Nitrogen is preheated to a favorable temperature in order to achieve rapid and proper azotization to achieve with the likewise preheated nitrogen.

Claims (3)

PATENT CLAIMS: i. Process for the production of a fine powder Liquid carbide carbide, characterized in that that flowing out of the furnace Carbide by one that does not react deleteriously to carbide. Gas flow, in particular Nitrogen, atomized in the upper part of a shaft provided with cooled walls will. 2. The method according to claim i., Characterized in that the gas stream is granular Material is added, which at the prevailing temperature on the azotization of the carbide is not harmful. 3. The method hach claim i and 2, characterized characterized in that the carbide in the shaft only reacts up to one with Nitrogen is cooled at a favorable temperature.