DE446009C - Device for the electrolytic decomposition of salt solutions - Google Patents

Description

Device for the electrolytic decomposition of salt solutions. The in The electrolysis cell described below serves to keep in continuous operation carry out an electrolysis with a diaphragm while cooling.

The cell consists of an elongated, flat box A, which is lined with lead on the inside. A sheet of lead B is soldered into this flat lead trough as a false bottom, slightly inclined. Tapered and offset strips C serve to support the sheet metal. The cooling water circulates in the flat box formed in this way, through the attached strips in the form of a dangle. In this box a frame D carrying the diaphragm, e.g. B. parchment paper, on insulating vessels, z. B. made of glass, porcelain, inlaid. Due to the inclined position of the floor, it is not level either. In this frame, the second electrode E is placed on the diaphragm. It can be carried by weak cross bars that are attached in the diaphragm frame, if the diaphragm, such. B. with parchment paper, the electrode does not give a hold.

During electrolysis, gases develop easily on the electrodes have to escape. This is achieved for the gases that are at the bottom of the trough develop due to the slight inclination of the diaphragm. To the gases that on the lower surface of the electrode, which is located above the diaphragm, develop to facilitate the escape, this electrode has slots, e.g. B. can be made so that incised strips in the sheet metal blind-like be slightly bent up. The slots must be arranged so that the sheet metal still retains a sufficient hold in itself.

The continuously circulating, electrolyze & liquid runs between the diaphragm and the bottom of the electrolysis cell, while in which the diaphragm supporting frame accommodates the second electrode liquid. This cell shape is particularly suitable for electrolytic oxidation. The gas evolution on the anode, which in this case is the bottom of the lead box, is small while the hydrogen evolved at the cathode easily through the slits of the electrode can escape.

By arranging such electrolysis cells in the shape of a staircase with a corresponding inlet and outlet, a continuous electrolysis can be carried out in the most convenient way, whereby one is able to graduate the current density in the individual cells differently depending on the progress of the electrolysis in order to achieve the most favorable current yield possible .

These cells are so simple and easy to build that they can be made from wood. To protect the wood against the action of the liquids, it is expediently soaked, for. B. with paraffin, wax, pizzas, etc. The frame that carries the diaphragm made of parchment paper is expediently designed so that a second clamping frame made of wood is pushed over the frame. The edges of the parchment paper are gripped between the frame and the clamping frame. Pouring the slots with paraffin creates a tight and durable seal. Instead of lead, as was assumed above in the description, for example, any other material suitable for the electrode, e.g. B. use other metals or any other conductive material. The diaphragm can also consist of any suitable material.

The particular advantage of this electrolyzer cell is that it can be removed between cathode and anode can be chosen to be extremely small. The inner one The cell's resistance is very low, and besides, the amount of it in a cell the liquid to be electrolyzed is small. The ones with these cells The current yields achieved are very satisfactory. You can have multiple diaphragms in arrange them side by side in a trough.

The arrangement of horizontal electrodes and diaphragms is on and not new in itself. But they are only for certain arrangements and types of electrolyzer cells been trained, including the placement of diaphragms between the two electrodes is provided. Examples are also known in which the diaphragm can be arranged slightly at an angle or in the electrolysis box in a gastight manner is cemented. This arrangement serves the special requirements of the CI-ilor alkali electrolysis. It was also known in and of itself that the individual electrolysis cells were step-shaped to be arranged one behind the other.

Compared to these older known embodiments stands out the one described here by a series of typical '., Nlerlzmale from which an extremely simple and functional construction generally applicable coolable electrolysis cells results.

Claims (1)

PATRNT CLAIM '. Device for electrolytic decomposition. of saline solutions, consisting of a flat box with an inclined inner one, an electrode forming a coolable double floor and inserted above it, carrying a diaphragm Frame, inside of which the second stored flat, possibly with blind-like Slotted electrode is used.