SU1728A1 - Method and apparatus for electrolytic production of alkalis and chlorine - Google Patents

Description

Existing mercury methods for the electrolysis of sodium chloride and potassium have the following disadvantages:

a) arrangement of anodes over mercury (Solvay apparatus, Costner-Kellner, Rhodin),

b) moving the electrolyte in the anode space (Wildermann, Rhodin devices), c) swinging or moving the entire vessel (Costner-Kellner, Rhodin), d) dependence of the cathode process on the anodic (Costner-Kellner), e) formation and decomposition of amalgam in different vessels, low use of electrolysis heat, large floor area (Solvay).

The present invention aims to remedy these disadvantages by obtaining the circulation of mercury through centrifugal force. If you rotate a spherical vessel in which mercury is placed with a layer of amalgam and water, then when the vessel rotates, the liquid rises up and forms a ring in the diametral zone, and the layer closest to the vessel walls will be the amalgam and then water. It is known that a rotating fluid has a depression in the form of a paraboloid of rotation, the axis of which coincides with the axis of rotation.

The plane passing through the axis intersects the paraboloid along a parabola. If part of the liquid is cast, the paraboloid, meeting the bottom of the glass, breaks, forming a circle free of liquid at the bottom of the vessel. When replacing a cylindrical vessel with a truncated cone, the liquid will be placed in a thin layer along the wall of the cone.

If the upper part of the rotating conical vessel is provided with a hole, then the mercury will be poured through it into the adjacent vessel to form an amalgam; from the latter, mercury enriched in amalgam can be sent back to the lower part of the conical vessel; Thus, it is possible to ensure the constant circulation of mercury and its regeneration.

In the proposed apparatus, the rotating cone is an iron cone /, the upper and lower edges of which are bent inward. If mercury with a layer of amalgam is poured into the recess b, then at a certain speed of rotation the mercury will be arranged in a layer along the wall of the cone. The amalgam layer forms the inner surface of it and will always be in contact with water poured into the interior of the apparatus.

an anode with an outer annular anodic and inner amalgam separation compartments, characterized in that it consists of: a) hollow truncated cones 1, driven into rotation on the vertical axis 17, located one below the other, with curved upper 8 and lower edges for accommodating the last gutters of b containing mercury amalgam and its centrifugal force directed upwards along the inner side surface of the cones up to a ring-shaped fold on this surface, provided with holes 2 for mercury to exit, b) placed another angled beneath the other ring-shaped bowls, provided with ring-shaped grooves 7 and 5 for receiving mercury exiting through the openings 2 of the cones 1, with an inclined surface 6 for pouring mercury from the groove 7, when it is refilled, into the groove 5, with radial canals 4 and adjacent to by him

bent siphon tubes 5 for further directing mercury back into the lower bends of the L cones /, from which the upper boxes are provided at the bottom with ring-shaped growths P, immersed by the lower part in the troughs 7 of the underlying trods to form a mercury gate, and the lower leg is provided with a bottom with a hole // for release alkaline, c) enclosing vysheoznachennye part of the casing, the side walls of which are formed by an annular anode 20 with holes 15 for the release of electrolyte, the lid 18 is provided with holes: 13 for supplying water into the apparatus, 12 and 14 - l release respectively of chlorine and hydrogen, and a lower annular tide 24, its lower part immersed in the trough 7, the upper cone 1 to form mercury shutter, and finally, the bottom has holes 10 for the electrolyte release.

Tppo-pitograf "Red Pechatnik, Leningrad, International, 75. U //// / 7 //. Ag15 - y / t7t