DE315091C - - Google Patents

Description

When it comes to chemical processes, it is important to have a closed off from the outside air .Container,. In which, for example, gases develop under pressure or in the vacuum should prevail to gradually introduce fine-grained substances, so far the Label the way to store the substance to be introduced in a compartment of the container and by screw conveyors or similar devices into the main part of the container to transport.

The present invention now represents a new method of charging in all cases where it is possible, the fine-grained mass before use with any Mix liquid. The procedure is that the liquid is in the Mass is pressed and this flushes into the container.

20. The new method can be used, for. B. in the production of hydrogen. by introducing silicon into 100 ° hot caustic soda solution. It is known that caustic soda, with a temperature of about ioo ° is achieved without external supply of heat is released at about _^2/3 of the required water at this hydrogen generating method. The silicon is conveyed into this solution from the container provided for its reception by suitable screw conveyors and at the same time the rest of the water is fed through a special line in order to achieve the correct concentration of the sodium hydroxide solution.

According to the present invention, this last introduced part of the Water can be used to transport the silicon into the development vessel. This not only saves the transport screws and their actuation ^ - devices, but also achieved the further advantage that a self-regulation of the Gas generation is achieved if the water is only supplied under such high pressure that that the maximum gas pressure the static equilibrium, so the cessation of Wasserbzw. Brings about silicon supply.

In the accompanying drawing, an apparatus for carrying out the present method is shown schematically in an exemplary embodiment. Here, too, it is assumed that the device is intended to be used for the production of hydrogen. It means α the development vessel into which the caustic soda solution is introduced through the tightly closable opening b . The silicon is stored in the vessel c , the lower part of which communicates with the developing vessel through the pipe d. The tube opens into the vessel α just above its bottom with a bend and at this point has a regulating slide e , the actuating rod of which is guided to the outside through the wall of the container to close tightly. This arrangement results in the

The advantage that the pipeline itself does not have any constriction due to the regulating element which could cause the line to become clogged with the fine-grained mass. The water pipe / 'opens into the lower part of the silicon container and is provided with a control element at h. The piece of this tube that protrudes into the container has one or, expediently, several outlet

ίο openings i open. To fill in the silicon, the container c is provided with a tightly closing lid k and with a tap I for venting. The ratio of promoted silicon to water can be changed by adjusting the distance between the water outlet opening i and the confluence point of the pipe d in c , e.g. B. by pushing in or pulling out the pipe /. The lower part of the container c is narrowed in the shape of a funnel in order to be able to completely empty the container. In order to obtain a short tube d in this case, only the side facing away from the vessel α can run obliquely. The water is expediently supplied from a vessel at a higher level under a pressure which is equal to the maximum pressure of the gas evolved in σ. This results in an automatic regulation of the gas generation, since when the maximum pressure in α is reached, the transfer of water and silicon from c ceases and begins again immediately as soon as the pressure in α falls below that of the water.

Claims (5)

Patent Claims: i. Process for charging air-tight rooms with fine-grained mass, preferably for the production of hydrogen, with silicon in a partially with hot caustic soda filled container is introduced with the addition of water, characterized in that that the liquid or the water is introduced into the fine-grained mass or the silicon under pressure and through a suitable connecting line (duct, pipe, or the like) into the air-tight space or the Gas development vessel promotes. 2. The method according to claim 1, characterized in that the liquid . is supplied under a pressure which is the maximum pressure in the gas evolution vessel corresponds to in order to achieve an automatic regulation of the gas generation '. 3. The method according to claims 1 and 2, characterized in that the Ratio of the mass to be pumped to the liquid to be pumped by changing the Distance between the liquid outlet point and the inlet into the delivery line is made adjustable. 4. Apparatus for carrying out the method according to claims 1 to 3, characterized by the confluence of the conveyor pipe (d) in the container (£>) by means of a bend directed towards the bottom of the container, in front of the mouth of which a regulating element (<?) Is arranged is. 5. Apparatus for carrying out the method according to claim 3, characterized in that that the liquid pipe (/) opening into the container (c) is in the container wall shifted and thereby the mouth of the delivery line (0!) can be more or less approximated. 1 sheet of drawings.