SU1745687A1 - Apparatus for electrochemical treatment of liquids - Google Patents

Abstract

Apparatus for the electrochemical treatment of liquids. SUMMARY OF THE INVENTION: In an enclosure serving as a cathode, an anode is separated coaxially in dielectric bushings of a special design, which is separated from the cathode by an electrically conductive diaphragm, inlet and outlet fittings with a magnetic field device. The cathode is made of porous titanium, and the anode is made of platinum-iridium alloy. 1 il.

Description

The invention relates to the regulation of the chemical composition of activated water and can be used in all sectors of the national economy.

A device comprising a housing serving as a cathode, a coaxially arranged metal anode, a carbon plug and a solution outlet connection is known, while it is provided with a metal perforated diaphragm located between the anode and cathode, the anode is equipped with a vibrator, and the nozzle is supplied with a magnetic field source.

However, the device is intended only for the extraction of metals from solutions at high temperature, has a complex structure with a multitude of electromagnets, which are steel rods with windings, as well as a vibrating system, a destructive device, and high energy consumption.

The purpose of the invention is to reduce power consumption.

The drawing shows the apparatus, a longitudinal section.

The device contains a cylindrical body 1, a cathode made of porous titanium (sponge), the body is covered outside

The hydro-insulating layer 2, a rod-type anode, is made of inert material of the platinum-iridium alloy. The anode 3 from the cathode 1 is separated by dielectric bushings - input 4 and output 5, while the sleeve 4 is ceramic flow through with peripheral axial holes 6 and a central hole 7 made ribbed to install the anode 3 and pass water. Between holes 6 and 7 is placed along with the 8 fastening of the dielectric permeable diaphragm 9 made of ceramic or fabric sleeve, the output sleeve 5 is made in the form of a dielectric permanent ferrite magnet with a central ribbed hole 10, with inclined ribs with core 11 and a radial hole 12 to accommodate the electrode screw 13. On the sleeve 5, a cylindrical settling chamber 14 with a bottom is sealed, equipped with a nozzle 15 for anolyte removal, in the bottom there is a nozzle 16 for oxygen withdrawal equipped with a valve 17. rpuse disposed pipe 18 LTL-cathode discharge pipe 19 and a hydrogen discharge valve 20. At the base of the settling chamber 14 is mounted crane 21 for sludge discharge.

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The apparatus is connected to a high pressure line with a flowing fluid after the inkjet sensor 22, so that when the flow is stopped, the apparatus turns off and when the ion density changes, i.e. conduction, the current is automatically controlled by an alternating motor-drive resistor 23 connected to a pH-meter sensor 24 so that when the density increases above a given one, the current decreases and vice versa. At the same time, a non-scalable part of the anolyte or catholyte closes to circulate.

The device works as follows.

When a flow occurs, the jet sensor 22 sends a signal to turn on the ionizer into the DC circuit in series with the resistor 23 at its zero position until reaching a predetermined density. When it exceeds the pH meter, a resistance is introduced into the circuit and vice versa. Through holes b and 7, water enters the reactive zone, electrolysis starts between electrodes 1 and 3 and, due to the dielectric permeable membrane 9, a catholyte saturated with bactericidal hydroxides forms in the area between cathode 1 and membrane 9 and through pipe 18 and pH meter 24 Hydrogen goes to the supply line, hydrogen formed here through valve 20 and pipe 19 goes to the main line for domestic use, and anolyte formed between diaphragm 19 and anode 2 through holes formed by ribs 10 and anode 3, blunt into the settling chamber 14 and through the nozzle 15 flows into the supply line, the generated oxygen 02 through the valve 17 and the nozzle 16 goes into the line for commercial use, while the liquid with the electrolysis-removed side factors is magnetised by the magnetic field of the ferrite and cleaned of magnetic impurities, and from other impurities by twisting the flow, and the sludge is discharged through valve 21.

The device is turned on to the high pressure line, cleaning the salts of the liquid by changing the polarity

Claims (1)

moreover, high sealing of the apparatus allows a considerable increase in pressure, a decrease in the voltage of the reaction potential, and contributes to the removal of the polarization layer from the electrodes, which leads to a decrease in power consumption. The invention The apparatus for the electrochemical treatment of liquids containing cylindrical a body that serves as a cathode, a rod anode coaxially mounted therein, and separated by a cylindrical diaphragm into a cathode and anode chamber, a nozzle for the treated fluid, a nozzle for the treated fluid, a source of a magnetic field, and an nozzle for the electrolysis gas, characterized in that to reduce power consumption, the body is made of porous titanium and its outer surface is covered with a hydroelectric insulation, the anode is made of a platinum-iridium alloy, the diaphragm is made of ceramic or woven, with the anode and diaphragm mounted in the housing on dielectric bushings, the bottom of which is made of ceramic, installed with a gap in relation to the bottom of the housing with peripheral flow-through the holes for the flow of fluid into the cathode chamber and the central ribbed hole for installing the anode and the flow of fluid into the anode chamber, the upper sleeve is made of a dielectric constant magnet, equipped with a central ribbed hole, the edges of which are angled, and mounted on the upper end of the body; additionally equipped with an airtight settling chamber placed above the upper dielectric bushing, a liquid inlet pipe is placed in the bottom of the case, a pipe to discharge liquid from the anode chamber azmeschen in the settling chamber, a liquid outlet pipe from the cathode chamber is arranged in the upper portion of the housing under the upper dielectric bushing, electrolysis gases outlet pipes are provided with valves and are placed in the settling chamber and a cover in the upper part of the body under the dielectric sleeve.