SU1398914A1 - Arrangement for purifying liquiids - Google Patents

Abstract

The invention makes it possible to reduce power consumption by automatically maintaining the interelectrode gap and simplifying the design. The goal is to reduce power consumption by automatically maintaining the interelectrode gap. The device contains an inclined graphite anode (A) 2 and parallel to it is the arranged mesh cathode (K) 4, fixed only on dielectric stops 5, made in the form of conical fits adjoining their vertices with working surface A. 2. During electrolysis and as a result In electrochemical reactions, graphite А 2 is gradually destroyed and the distance between the electrodes increases. Under the support point of the 5 K 4 support, the tubercle of graphite remains unbroken, from which K 4 together with the abutment 5 is displaced as a result of fluid oscillations. spine so that is moved behind razrushayuscheys surface A 2, that maintains the same interelectrode space. 2 Il. & cl

Description

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The invention relates to devices for the purification of liquids in agricultural production, mainly for the purification of juices from suspended particles.

The purpose of the invention is to reduce power consumption by automatically maintaining the interelectrode gap and simplify the design.

This goal is achieved by the fact that in a liquid purification device consisting of a vessel with an inclined graphite anode installed in it and a cathode grid positioned parallel to it, the cathode is mounted on dielectric stops made in the form of conical pyramids in contact with their anode surface.

Due to the stops, the device ensures that the interelectrode distance remains unchanged during the entire time of operation of the electro-flotation apparatus with the inevitable wear of graphite anodes. This reduces power consumption.

In Fig. 1, the device is shown as a transverse section; in fig. 2 is a section A-L in FIG. one.

The device for cleaning the liquid is a vessel with an inclined bottom 1. Graphite plates 2 are installed at the bottom of the vessel, which serve as an anode. The receiving chute 3 for the liquid entering the treatment and the cathode 4, mounted in the form of a wire mesh stretched parallel to the anode 2 and fixed on the dielectric stops 5 (Fig. 2), made in the form of conical prisms, are fixed on top of the vessel, in contact with their vertices with the working surface of the anode 2. Partitions 6-8 are installed in the vessel, Central partition 6 divides the vessel into two parts: electrode 9 and electrodeless 10, to which section 1I adjoins, through which liquid is removed from the vessel.

The device works as follows.

The treatment fluid enters the receiving chute 3. From the latter, the liquid enters the electrode section 9, in which it is saturated with bubbles of electrolysis gases. Tubs float suspended particles onto the surface of the liquid in section 10, where they are collected in the form of a foam, which is removed by the foam collector. The purified liquid is poured into a special section 11 and is further processed according to the flow chart.

During the process of electrolysis and as a result of electrochemical reactions, the graphite anode 2 is gradually destroyed and the distance between the electrodes increases (Fig. 2). Under the point of support of the anvil 5 of the cathode 4, there remains an intact graphite tubercle, from which the cathode 4 together with the anvil 5 is displaced as a result of the oscillation of the liquid.

Thus, due to periodic displacements in a plane parallel to the surface of the anode 2, the grid of the cathode 4 moves after the collapsing surface of the anode 2, thereby maintaining the same distance between the electrodes.

Claims (1)

Invention Formula A fluid cleaning device consisting of a vessel with an inclined graphite anode installed in it and a grid cathode parallel to it, characterized in that, in order to reduce power consumption by automatically maintaining the interelectrode gap and simplifying the design, the cathode is mounted on dielectric stops made in the form of conical pyramids, supported by vertices on the working surface of the anode. ///////// / u W //, fsh 2