SU1298195A1 - Electrocoagulator for water puirification - Google Patents

Abstract

The invention relates to water supply and sewage and can be widely used for the treatment of natural wastewater. The aim of the invention is to increase the efficiency of the device by creating a constant interelectrode distance. This goal is achieved by the fact that cylindrical and rod soluble electrodes are located in an electrocoagulator, which is a body with pipes for removing water and removing water. 3 il. 9 (L

Description

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The invention relates to the field of water supply and sewage and can be used to purify natural, waste and recycled water.

The aim of the invention is to increase the efficiency of the electrocoagulant by creating a constant electrode spacing.

Figure 1 shows schematically an electrocoagulant for water purification, sectional; figure 2 - rod electrode; on fig.Z - a cylindrical electrode.

The electrocoagulator is a dielectric cylindrical body 1, equipped with a source water supply pipe 2 and a treated water removal pipe 3. Inside the housing 1 are perforated partitions 4, which are the current leads to the electrodes. Between the partitions 4, rod electrodes 5 and cylindrical electrodes 6 are arranged in pairs. The rod electrode 5 is made in the form of an elastic rod 7, over the outer surface of which a wire helix 8 is wound, while the rod 7 is in a compressed state. In the wire helix 8, compressed elastic (rubber) inserts 9 are located. The cylindrical electrode 6 is made in the form of an elastic tube 10, on the inner side of which is a wire helix 11, while the tube 10 is stretched

condition. Elastic inserts 12 are arranged in the wire helix 11. The wire helixes 8 and 11 are made of soluble material, for example aluminum or iron, and are connected to different poles of the current source. The rod 7, the pipe 10 and the elastic inserts 9 and 12 are made, for example, of rubber.

Electrocoagulant works as follows.

The source water through pipe 2 is fed into housing I. Through the perforated partition 4, water enters the interelectrode space bounded by the outer surface of the rod electrode 5 provided with a wire helix 8 and the inner surface of the cylindrical electrode 6 provided with a wire helix 11. Water after electrolyte - the hydroxide-formed dissolved electrode material is removed from the housing 1 through the partition 4 and the pipe 3.

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During the operation of the electrocoagulant, the electrode material dissolves from the surface of the wire spirals 8 and 11, which leads to a decrease in the thickness of the wire and, accordingly, to a decrease in its rigidity. The decrease in the rigidity of the spirals 8 and 11 leads to stretching of the elastic material of the rod 7 and inserts 9, and also to preload the elastic material of the pipe 10 and inserts 12. In this case, the outer surface of the electrode 5 and the inner surface of the electrode 6 converge and, consequently, the wire spirals 8 and 11 come closer. time constant provided the interelectrode distance during operation elektrokoagul torus.

The advantage of the proposed device is that the electrocoagulator electrodes are made in the form of wire spirals located on the surface of an elastic material in a compressed or stretched state, which provides a change in the configuration of the electrodes during the electrochemical dissolution of the electrode material from the surface of the spirals. In this case, it is possible to create a constant interelectrode distance during the operation of electrocoagulators with an electrode system of the rod – cylinder type, the cylinder – cylinder, and the body – cylinder.

Claims (1)

Claims of the invention Electrocoagulant for water purification, consisting of a housing equipped with water supply and discharge nozzles, an electrode system and a current source, characterized in that, in order to increase the efficiency of the electrocoagulant by creating a constant interelectrode distance, the electrode system is made in the form of rod electrodes consisting of rods made of elastic material, in a compressed state, with a spiral wound on the outer surface and in the form of cylinders made of of an elastic material that is in a stretched state, with a spiral wound on the inner surface, while the spirals are made in the form of a metallic wire with elastic inserts and connected to the opposite poles of the current source. FIG 2 Editor N.Egorova Compiled by S. Black Tehred M. Khodanich Proofreader S. Cherni Order 855/23. Circulation 852Subscribe VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 Fig.Z