DE88001C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

Salt solutions in electrolyzed in such a way that the space which is the one with the electrolyte filled and anode-provided space by a diaphragm and one on the latter tightly fitting or connected to it openwork cathode is separated from the electrolyte keeps free, with the cathion attached to the cathode by steam, moist air or such gases or atomized water can be detached from it.

The present invention relates to a particular arrangement of electrolytic apparatus, which decompose chlorides, iodides, bromides, nitrates and others Salts are determined according to the method according to the main patent No. 76047, and has the purpose, the production respectively. Construction of such apparatuses to cheapen that Execution of the above-mentioned method more convenient and more beneficial and the apparatus to give even a compact, massive arrangement. It is to be noted that this is done for the execution of the process of the main patent, electrodes are already proposed (see patent No. 81893), which consist of a single, simultaneously conducting and filtering body exist, while in the present invention, as can be seen from the following description is, but the exposed electrodes are tightly united with the diaphragm, but both can still be distinguished from one another.

In the accompanying drawing, an apparatus set up according to the present invention is illustrated by FIG. 1 in a vertical section and by FIG. 2 in a horizontal section according to yy of FIG. 1 ', while FIG. 3 shows, on a somewhat larger scale, an exposed carbon electrode according to the present invention.

This apparatus is excellent for the decomposition of sodium nitrate and potassium iodide applicable. All electrodes (both anodes and cathodes) are exposed.

The apparatus building is expediently put together from individual parts in the following order. An end wall C ³ includes, in common with an exposed anode A ^{x located} on it, a plenum chamber D ^x ; this is followed by a diaphragm A \ then a cell frame ee ^ -e ^ e ⁸ and a diaphragm B ¹ ; . the cell enclosed by these two diaphragms and the cell frame is filled with the electrolyte F. The diaphragm is followed by an exposed cathode B, followed by a cathode chamber frame C and an exposed cathode B; A cathode collection chamber -D is formed by these two cathodes and the cathode chamber frame. This is followed by a diaphragm ü ¹ , a cell frame e e ¹ e ^ä e ³ , a diaphragm A ¹ ;

the cell thus formed contains the electrolyte just like the first cell. This is followed by an exposed anode A ^x , an anode chamber frame C ² and an exposed anode A ^x ; An anode collection chamber D ^x is delimited by these two anodes and the anode chamber frame. Now comes a diaphragm A ^{1 again} , a cell frame ee ¹ e ' ² e ^s etc. The apparatus ends with an exposed anode A ^x and a second end wall C ⁴ , both of which enclose a collecting chamber.

It should be noted here that as soon as two exposed anodes A ^x alternate with two exposed cathodes B in the middle part of the apparatus, it is irrelevant whether the electrodes at the ends of the apparatus are anodes A ^x or cathodes B.

The cathode collection chambers D are connected to the main discharge line D ¹ through outlets d . The gaseous or volatile products developed in the anode collecting chambers can be carried away through a gas discharge line K and treated further in any desired manner. The cells E are provided with a feed line E ¹ for the electrolyte. If the cleaved acid is volatile, as with nitrates or bromides, it is advisable to use heat to drive off the acid in gas or vapor form. Liquid resulting from condensation or filtration is released from the anode plenum through the 'concerned. Outlets d ^l fed to the corresponding main line D-.

The apparatus can also consist of just two end walls C ³ C ^{4 of} an exposed anode A ^x together with the associated diaphragm A ¹ , an exposed cathode B and associated diaphragm B ¹ and a cell E for the electrolyte between the diaphragms A ¹ and B ¹ .

The exposed electrodes can also be made of perforated carbon instead of wire mesh. According to the present invention, the latter is advantageous, as illustrated by FIG. 3, with a saw-shaped design (a) on the side adjacent to the diaphragm. In order to keep such carbon plates tight against the diaphragms concerned and not to damage them, the corresponding housing parts are provided with matching grooves or recesses into which the carbon plates are inserted, as close as possible to the diaphragm, so that only the diaphragms of the Frame are clamped and exposed to the full pressure of the bolts intended to hold the housing parts together.

You pass between the serrated perforated electrode and the diaphragm expediently water flow, which continuously or intermittently in the between the two located upper 'gap is introduced. The electrical current remains unhindered or its passage is facilitated and that produced on this anode surface Product is washed off.

The water can, as FIG. 3 illustrates on an enlarged scale, with the aid of a small trough formed by the cell frame e , which surrounds the carbon electrodes at the top, between the carbon electrode A ^x and the diaphragm A ¹ . In some cases this trough can be dispensed with as soon as the steam supplies the required amount of water at the electrode. When using water, it seeps down very gradually and slowly.

Since the toothed, perforated carbon electrodes are of a fragile nature, they cannot be so tightly pressed together with the diaphragm that the sawtooth-like crests α of the electrodes also fit with mathematical precision against the diaphragm A ¹ in a gas, air and water-tight manner. The water will still have an opportunity, albeit very slowly, to trickle down.

Claims (4)

Patent Claims: 1. To carry out the process protected by Patent No. 76047, use the electrolyte containing cell, in which an exposed perforated anode and a cathode of the same type the electrolyte in the limit protected by the main patent way. 2. The combination of several cells of the type protected by claim 1 to form an electrolytic apparatus in such a way that collecting chambers (DJ) are arranged between the individual cells, possibly also in front of the first and behind the last cell, in which the Product created by perforated electrodes. 3. An embodiment of the apparatus protected by claims ι and 2, according to which the exposed, perforated carbon electrodes are serrated on the surface adjacent to the diaphragm (Fig. 3). 4. An embodiment of the apparatus protected by claim 3, according to which between the exposed, perforated carbon electrode and the associated one Diaphragm water resp. Steam is introduced. 1 sheet of drawings.