RU2398741C1 - Device for electrolytic treatment of liquid - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to nature conservation and can be used in purifying water from poisonous and dangerous insoluble and partially soluble organic compounds. The device for electrolytic treatment of liquid has a cylindrical housing with an outlet nozzle connected to the positive terminal of a direct current source, and a cylindrical flow cathode coaxially placed inside the housing and connected to a liquid inlet nozzle. The said cathode has holes in which there are inserts made from electrically insulating material. The device is fitted with a liquid disperser with an inlet and an outlet nozzle connected with the nozzle for inlet of liquid into the cathode on whose surface there are holes on a helical generatrix and inserts in the holes protrude towards the housing of the device and have a longitudinal channel which connects the inside of the cathode to the inside of the device. The part of the inserts which protrudes from the holes spreads out in the vertical plane towards the liquid inlet nozzle and is turned in the horizontal plane about the lateral surface of the cathode.

EFFECT: less expenses on purifying liquid due to higher efficiency of the device; higher output of the device; higher degree of decomposition of insoluble and partially soluble poisonous and dangerous organic compounds to obtain environmentally safe and biologically active compounds.

7 cl, 1 dwg

Description

The invention relates to the field of nature conservation, in particular to devices used in the destruction and disposal of toxic and dangerous organic substances, and can be used in wastewater treatment from toxic and dangerous insoluble and sparingly soluble organic compounds, as well as in the processes of destruction and processing of toxic chemicals and products of their partial oxidation to produce environmentally friendly and biologically active substances.

A device for electrolytic processing of liquid, consisting of a cylindrical body and a hollow cylindrical electrode placed inside it, connected to opposite poles of the current source and equipped with input and output nozzles (Japanese Application "Device for electrolytic liquid processing", No. 46-16254, C02C 5 / 00, 1977).

A device is known for electrolytic processing of a liquid, consisting of a cylindrical body with an outlet pipe and coaxially located inside the body of a cylindrical flow cathode equipped with a liquid inlet pipe, on the side surface of which there are holes with liquid guides coaxially mounted in them in the form of metal inserts with a beveled surface (A S. 1619655, USSR, A1 C02F 1/46, 1990, “Device for the electrolytic treatment of liquids”).

Closest to the claimed device is a device for electrolytic liquid treatment (A.S. 1353742, USSR, A1 C02F 1/46, BI No. 43 "Device for electrolytic liquid processing"). This device has the same purpose as the claimed. It consists of a cylindrical body with an outlet pipe and a cylindrical flow-through cathode coaxially located inside the case, equipped with an input pipe, and the cathode surface is covered with a dielectric layer and there are holes in it, along which liquid flow guides are made coaxially with these holes, made in the form of inserts of non-conductive material with the ability to move.

The disadvantages of the known devices are:

- the complexity of the maintenance of the device due to the need to adjust the position of the inserts;

- high operating voltage;

- the long duration of the liquid processing process;

- low efficiency of the known devices in the treatment of liquids containing insoluble and sparingly soluble toxic and dangerous organic compounds (suspensions, emulsions, colloidal solutions, etc.), namely:

- insufficient degree of purification and degree of complete destruction of organic compounds;

- low productivity;

- it is impossible to detoxify and process toxic and dangerous insoluble and poorly soluble organic compounds (in particular, banned pesticides and other toxic and dangerous substances) to produce environmentally friendly and biologically active compounds.

Technical results from the use of the invention are:

- reducing the cost of cleaning liquids by increasing the efficiency of the device;

- increased device performance;

- an increase in the degree of destruction of insoluble and sparingly soluble toxic and dangerous organic compounds, in particular pesticides, poisons and other substances, with the production of environmentally friendly and biologically active compounds.

The above results are achieved due to the fact that the device is equipped with a liquid dispersant, which is used as a rotary pulsation apparatus. In addition, the holes on the side surface of the cathode are located along a helical generatrix, the step of which is inversely proportional to the diameter of the cathode, and the inserts made of non-conductive material coaxially fixed in the holes protrude from the holes toward the inner surface of the device body and have a longitudinal channel made in the center of the coaxial holes and connecting cavity of the cathode with the cavity of the device. In this case, the channels have a cylindrical or conical shape, with the wide part of the conical channels directed towards the inner surface of the cathode, and the part of the inserts protruding from the holes is rotated in the vertical plane towards the fluid inlet pipe by 15-60 ° and rotated in the horizontal plane relative to the side surface of the cathode by 45-90 °.

As a result, the stability of the disperse system is preserved, the device productivity is increased, mass transfer (redox) processes are intensified, and as a result, the cost is reduced (lower operating voltage, less time for electrolytic treatment of the liquid) and the degree of destruction of organic compounds and the degree of purification of solutions increase.

At the same time, it is possible to carry out the process in the regime of controlled “depth” of destruction of organic compounds and complete at the stage of formation of non-toxic and useful (for example, biologically active) products or, if the degree of destruction is insufficient, direct the liquid to re-treatment.

The inventive device for electrolytic liquid processing is characterized by new structural elements, which, by the totality of the features, provides a qualitatively new type of device for processing liquid. These differences allow us to conclude that the proposed technical solution meets the criterion of "novelty."

Signs that distinguish the claimed technical solution from the prototype, aimed at achieving the goal, are not identified in the study of data and related fields of scientific research and meet the criterion of "inventive step".

Description of the claimed device

A device for electrolytic liquid treatment includes a liquid dispersant and an electrode module consisting of a cylindrical body and coaxially placed inside the body of a cylindrical flow cathode.

The cylindrical housing of the device is connected to the positive pole of the DC source and is equipped with an outlet pipe located at the bottom of the side surface of the device.

A cylindrical flow cathode is connected to the fluid inlet pipe and is made with holes in which the inserts of non-conductive material are fixed.

The liquid dispersant has an inlet pipe and an outlet pipe connected to the liquid inlet pipe into the cathode cavity. Holes are made on the surface of the cathode, arranged along a helical generatrix. Inserts of non-electrode material are fixed in these holes, which protrude towards the device body and have a longitudinal channel connecting the cathode cavity to the device cavity, while the part of the inserts protruding from the holes is deployed in a vertical plane toward the liquid inlet pipe and rotated in a horizontal plane relative to the side cathode surface.

The liquid dispersant can be placed on the cover of the device.

As a liquid dispersant, a rotary pulsation apparatus can be used.

The pitch of the helical generatrix can be inversely proportional to the diameter of the cathode.

The channels in the inserts can have either a cylindrical shape or a conical shape, the wide part of which is directed towards the inner surface of the cathode.

The turn of the protruding part of the inserts in the vertical plane can be 15-60 °, and the rotation in the horizontal plane of 45-90 °.

The device for electrolytic liquid treatment, shown in Fig. 1, consists of a liquid dispersant (1) located on the cover of the device and equipped with inlet pipes (2) and output (3) connected to the supply pipe (4) of the working solution into the flow cavity cylindrical cathode (5). The cylindrical body (6) of the device is connected to the positive pole of the DC source and is equipped with an outlet pipe (7) located at the bottom of the side surface of the device. A flowing cylindrical cathode with a working fluid inlet pipe is coaxially placed inside the device case. On the side surface of the cathode along the helical generatrix, the pitch of which is inversely proportional to the diameter of the cathode, holes are made in which inserts (8) of non-conductive material are fixed coaxially to the holes. The inserts protrude from the holes toward the inner surface of the device body and are deployed in a vertical plane towards the fluid supply pipe by 15-60 °, and at the same time, the inserts are rotated in the horizontal plane relative to the side surface of the cathode by 45-90 °. In the inserts, coaxially to the holes, a longitudinal channel of a cylindrical or conical shape is made in the center, connecting the inner cavity of the cathode with the cavity of the device. In this case, a wide part of the cone-shaped channels faces the inner surface of the cathode.

Design solutions of the elements of the claimed invention are aimed at reducing costs, increasing efficiency and obtaining environmentally friendly substances with pronounced biological activity in the processing of toxic and dangerous insoluble and sparingly soluble organic compounds. The dispersant is designed to prepare a working solution - a stable dispersed system (suspension, emulsion, colloidal solution of insoluble and sparingly soluble organic compounds in the electrolyte) by processing (dispersing) the original liquid components. To ensure compactness (elimination of piping pipelines, reducing the length of flows, fittings and other elements) and reduce manufacturing costs (reduce metal consumption) dispersant is placed on the top cover of the device.

The pitch of the helical generatrix, which determines the location of the holes with guide inserts on the side surface of the cathode, is inversely proportional to the diameter of the cathode. This allows you to "save" the optimal parameters of the liquid processing process (and, therefore, the novelty of the claimed elements) when changing the overall dimensions of the device. With an increase in the diameter (and hence the surface) of the cathode, in order to maintain the optimal current density (D = I / S, where D is the current density; A / m ² ; I is the current strength; A; S is the cathode surface, m ² ) it is necessary to increase the current load and, at the same time, increase the supply of the solution, which is achievable with an increase in the number of inserts (fluid supply elements) per unit surface of the cathode, i.e., as a result of a decrease in the pitch of the helical generatrix. On the contrary, a decrease in the diameter (and surface) of the cathode leads to the need to reduce fluid flow, i.e. reducing the number of feed elements, which is achievable by increasing the pitch of the helical forming surface of the cathode.

The inserts placed on the surface of the cathode have axial longitudinal channels of cylindrical or conical shape, which are designed to supply the working solution from the internal cavity of the cathode to the cavity of the device (the space between the cathode and the anode). Inserts with cone-shaped channels, the wide part of which (channels) are directed to the inner surface of the cathode, are preferably used (inserts are interchangeable) when processing fluids with high viscosity (cone-shaped channels provide a higher rate of liquid passage). The inserts are made of non-conductive material, which eliminates undesirable processes (the formation of a precipitate of alkaline earth metal hydroxide due to alkalization of the cathode layer as a result of water recovery), which negatively affect the operation of the device.

The part of the inserts protruding from the holes creates a vortex movement in the space between the anode and the cathode and at the same time guides the fluid flow: turning the inserts towards the feed fitting by 15-60 ° and simultaneously rotating them relative to the cathode surface by 45-90 ° allows you to direct the fluid flow in a spiral along (tangentially) the surfaces of the cathode and anode to the lower part of the device casing to the outlet fitting. Turning the inserts at an angle of less than 15 ° and turning them less than 45 ° do not create conditions for the intensification of the process (increase mass transfer, reduce costs, increase productivity and the degree of destruction); an increase in the angle of rotation of the inserts above 60 ° and their rotation by an angle of more than 90 ° have little effect on mass transfer, productivity, and other process parameters.

The device is in continuous mode. A working solution is prepared by finely grinding (dispersing) the starting materials (insoluble and poorly soluble organic compounds in wastewater, waste solutions, in electrolyte solutions) in a liquid dispersant (rotary-pulsation apparatus), where, as a result of complex physicochemical processes (intensive mixing, processes of pulsation, cavitation, the effect of ultrasound, the breaking of chemical bonds, the mechanical effect of the working organs and the walls of the apparatus, and other factors) a stable phase is formed - a dispersed system (sous suspension, emulsion, colloidal solution of insoluble or sparingly soluble organic compounds in an electrolyte solution). The prepared working solution through the inlet pipe enters the flowing cylindrical cathode and through the longitudinal channels of the inserts enters the internal cavity of the device - into the space between the cathode and the anode. When a constant electric current is applied in the space between the cathode and the anode, electrochemical (at the anode and cathode) and chemical (in the electrolyte volume) processes take place: at the anode, oxidation of organic compounds and generation of oxidizing agents (oxygen, chlorine, etc.), and recovery at the cathode organic compounds and alkali generation (the result of the restoration of water molecules), in volume - the oxidation of organic compounds by electrochemically generated oxidizing agents and the products of their interaction with an electrolyte. The placement of the inserts, which are the guides of the working solution flow, along the helical generatrix, their rotation in the vertical (towards the supply pipe) and rotation in the horizontal (relative to the cathode surface) planes allow creating a vortex turbulent fluid flow in the space between the anode and cathode. The liquid may be in the form of a suspension, emulsion and colloidal solution of insoluble or sparingly soluble organic compounds, oxidizing agents and other components. The vortex flow is the result of the protruding part of the inserts and is directed in a spiral towards the outlet pipe.

Device example

Laboratory tests of the bench design showed the high efficiency of the proposed device, the performance of which is much higher (higher productivity and degree of destruction, lower costs) compared with known devices of the same purpose. The device provides almost complete cleaning of the liquid from toxic and dangerous compounds, including insoluble and poorly soluble organic compounds, and allows the processing (and disposal) of pesticides (pesticides and other toxic and dangerous substances) into environmentally friendly compounds with pronounced biological activity.

Device specifications

Electrode module: current density D = 500 ÷ 1500 A / m ² ; current strength I - up to 100 A; electrode surface S-150 cm (cathode made of titanium, perforated; oxide ruthenium-titanium anode, perforated), capacity up to 0.5 m ³ .

Rotary pulsation apparatus: Re> 0.6 × 10 ⁵ , rotor speed up to 4500 min ^-1 ; sound pressure 10 ⁶ ÷ 10 ⁸ n / m, power - 0.5 kW.

Processed liquids: solutions of soluble, insoluble and poorly soluble organic compounds (phosphorus-containing pesticides - karbofos, bazudin; ethylenediamine, dichloroethane, bottoms produced by DCE, etc.) in a chloride solution.

Processing Products:

- with complete destruction - CO ₂ and H ₂ O;

- with incomplete destruction in the solution, we find carboxylic acids (maleic, succinic, acetic, etc.), environmentally friendly and biologically active compounds (derivatives of succinic and acetic acids and other compounds).

The processing parameters of a multicomponent object and the degree of complete destruction (degree of purification) are determined by the most toxic and oxidizable component.

The process conditions (time, amount of electricity, etc.) are chosen taking into account the nature of organic compounds, and also taking into account the set goal - either decomposition is carried out to complete destruction (CO ₂ and H ₂ O), or - to obtain useful substances.

When the complete destruction of the starting compounds is realized, the degree of destruction is not less than 90%, the degree of purification not less than 99%, the content of the most toxic compound is determining.

In the case of obtaining useful and environmentally friendly oxidation products, the process parameters are selected individually, being guided by the chemistry of the process and laboratory data (the result of the analysis of product samples).

Claims (7)

1. A device for electrolytic fluid treatment, comprising a cylindrical body with an outlet pipe connected to the positive pole of a direct current source, and a cylindrical flow cathode coaxially placed inside the body, connected to a liquid inlet pipe and made with holes in which inserts of non-conductive material are fixed, characterized in that the device is equipped with a liquid dispersant with an input pipe and an output pipe connected to a liquid pipe to the cathode cavity, the holes on the surface of which are placed along the helical generatrix, and the inserts fixed in them protrude towards the device body and have a longitudinal channel connecting the cathode cavity to the device cavity, while the part of the inserts protruding from the holes is deployed in a vertical plane towards the fluid inlet side and turned into horizontal plane relative to the lateral surface of the cathode. 2. The device according to claim 1, characterized in that the liquid dispersant is placed on the cover of the device. 3. The device according to claims 1 and 2, characterized in that a rotary pulsation apparatus is used as a liquid dispersant. 4. The device according to claim 1, characterized in that the pitch of the helical generatrix is inversely proportional to the diameter of the cathode. 5. The device according to claim 1, characterized in that the channels in the inserts are cylindrical. 6. The device according to claim 1, characterized in that the channels in the inserts are conical in shape, a wide part of which is directed towards the inner surface of the cathode. 7. The device according to claim 1, characterized in that the turn of the protruding part of the inserts in the vertical plane is 15-60 °, and the rotation in the horizontal plane is 45-90 °.