SU305725A1 - Electrolytic cell for producing caustic alkali, chlorine and hydrogen - Google Patents

Abstract

1. ELECTROLIZER FOR PREPARING CAUSAL ALKALIAS, CHLORINE AND HYDROGEN, containing a cathode kit comprising a conductive housing with a system of cathode elements inside it, covered with a permeable diaphragm separating the anode and anode, and protected from corrosion a current-carrying base with anodes mounted on it, placed between the cathode elements, is made so that, in order to increase the output of products per unit of area without increasing power consumption, the anodes are placed up and down on both sides, at least one current-lead-base situated between two adjacent sections of the cathode sets, so as to form, at least dve- electrolysis cell.

Description

. The electrolyzer according to claim I, b tl ich and y y and y. With the fact that the electrolysis cells are filled communicating among themselves at the cathode and

the anode spaces have a common chamber for collecting chlorine.

3. Electrolyzer in PP. 1 and 2, similar to the fact that, in order to supply the brine to the electrolysis cells located below the current lead base and to withdraw from them, the said base is provided with at least one hole.

The invention relates to electrolyzers for producing caustic alkalis, chlorine and hydrogen, in particular to a solid cathode and diaphragm electrolyzer, and is intended for use in the chlorine industry. Known electrolyzer with the upper current lead to the anodes, the cathode comp. The set of which is a system of cathode elements in the form of hollow pockets, located inside the rectangular carbon case and connected to it by electric current. The cathode pockets are formed by a metal grid tensioned onto the frame, the surface of which is covered with a permeable diaphragm. The body of the electroluer is equipped with upper and lower flanges. A frame is installed on the upper flange of the cathode kit, covered with a non-corrosive insulating material and serves as a current-carrying base for the anodes. With a current-carrying frame, there are a number of current-carrying outgoing rods arranged horizontally. These rods are enclosed inside bars, having grooves on the underside, into which graphite anode plates are inserted. In this way, an anode assembly is created with an upper current lead to the anodes and a one-sided arrangement of the anodes relative to the current-carrying base. The top of the electrolyzer is a lid of a chlorine-resistant material, the bottom is a bottom. However, in such a cell, the one-sided relative to that sub-base arrangement of anodes limits the possibility of developing an active anode surface. The development of it by increasing the number of anode elements leads to an increase in the area occupied by the electrolyser, and its development due to an increase in the vertical emission of anodes leads to an increase in voltage losses on the electrodes and a more uneven current distribution on the electrode surface in height as well as increasing the removal of products per unit of occupied area, without increasing power consumption, offers an electrolyzer, the anodic KOMnjzeKT of which is made with double-sided the position of the anodes on the (lower and upper sides) of the current-carrying base, which is, for example, a plate, which is horizontally predominantly horizontally protected from corrosion; The anode kit is placed between two adjacent sections of the cathode kit, and the upper and lower rows of anodes are placed between the cathode pockets of the upper and lower sections of the cathode kit so that the lower and upper electrolysis cells are formed. The number of cells depends on the number of anode conductive plates. The cells are made jointly in the anode and cathode spaces and have a common chamber for collecting chlorine. In order to feed the brine into the cells located in the lower part of the electrolyzer, and for removing chlorine from them, the current-carrying base of the anode set is equipped with at least one hole. On .fig. I shows the electrolyzer in cross section; in fig. 2 - the same, in a longitudinal section. The electrolyzer contains cathode 1 and anode 2 sets, cover 3 and bottom 4. The cathode set of the electrolyzer consists of the top 5 and bottom b sections, and each section is of the rectangular housing 7, inside of which are located hollow cathode pockets 8. on the frames 9 with a metal grid 10. At the same time, the common cathode spaces 11 and 12, located along the inner perimeter of the housing, and the cavities 13 of the cathode pockets are interconnected along a catholyte. A permeable diaphragm 14 is applied to the grid surface. The total cathode space 11 of the upper cathode section is connected with the current space 12 of the lower section

Claims (3)

1. An electrolytic cell for producing caustic alkali, chlorine, and hydrogen, comprising a cathode assembly including a conductive housing with a system of cathode elements inside it, covered with a permeable diaphragm separating the cathode and anode spaces, and an anode assembly comprising a corrosion-resistant conductive base on which it can be mounted anodes placed between the cathode elements, so that in order to increase the removal of products from a unit area without increasing energy consumption, the anodes are placed vertically x and down on both sides of at least one current supply base located between two adjacent sections of the cathode assembly, so that they form at least lysing cells. least two electro 6 * 1 (L 2. The cell according to π. 1, b, in that the electrolysis cells are made interconnected along the cathode and anode spaces y. have a common chamber for collecting chlorine. . 3. The cell according to paragraphs. 1 and 2, characterized in that, in order to feed the brine into the electrolysis cells located below the current-carrying base and drain from them, the specified base is equipped with at least one hole. *