DE286993C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

~ M 286993 CLASS 12 /. GROUP

Process for continuous electrolysis. Patented in the German Empire on December 12, 1913.

For an expedient use of current in electrochemical processes, the shapes are of electrodes and diaphragms are crucial.

Venetian blind electrodes enable an even flow over their entire surface of the electrolyte and offer a surface that is larger than the current consumption with a perforated plate electrode,

ίο assuming the same cross-section of the electrolyte. The distributed flow of the lye • causes the electrolytic to be washed away formed products and thus their continuation from the field of ■ electrical

¹ S streamlines so ■ that current losses are reduced. The streamlines are distributed almost evenly over the cross section of the electrolyte. Compared to perforated plate electrodes, where the distribution of the streamlines over the liquid cross-section is much less uniform, the louvre electrodes allow a lower cell voltage when the same amount of current flows through the same cross-section of the electrolyte.

Double and multiple diaphragms have the opposite to simple diaphragms great advantage that the finished product, which is from one electrode through the first Through the diaphragm, do not get directly to the other electrode and thus power losses can cause.

It has now been found that the combination of blind electrodes with a Double or multiple diaphragm, which is designed as a channel diaphragm, in one Series of electrochemical processes that carry out electrolysis in aqueous solution, delivers particularly good electricity utilization, for example in chlor-alkali electrolysis, where the blind electrode is used as a cathode.

Through the combination of double or multiple diaphragms, that as a channel diaphragm is designed with a blind electrode compared to the previous combination achieved a special and surprising effect with a perforated plate electrode. In the case of the plate electrode, all hydrogen rises to the lower cathode in front of the electrode high and accumulates in the higher electrolyte layers, creating the fluid pathway narrowed for the passage of current. If so, what in the interest of a simple cell construction if the diaphragm rests against the electrode, the resulting parts are precisely on the active cathode parts Hydrogen gas and baking soda held in place by the cloth.

When using the device according to the present invention, however, the The hydrogen bubbles and the sodium formed are carried away from the area of the Streamlines favored, whereby one achieves a higher current utilization.

The accompanying drawing shows a special embodiment of a cell for chlorine

Alkaline electrolysis with the combination of blind electrodes used for the new process with duct diaphragm.

α is the anode chamber with the carbon anodes b;

c, d are double diaphragms that form the intermediate chamber e;

f are blind cathodes;

g are cathode chambers;

h is the brine inflow to the anode chamber α and the sewer pipe i ;

k are sewer pipes between chambers e and g;

is the drain of the anode chamber; m are drains of the cathode chambers.

Claims (1)

Patent claim: Process for continuous electrolysis, characterized by the use a louvre electrode with a double or multiple diaphragm, which is designed as a channel diaphragm. 1 sheet of drawings.