RU2264992C2 - Device for electrochemical disinfection of natural waters - Google Patents

Abstract

FIELD: devices for electrochemical disinfection of natural waters.

SUBSTANCE: the invention is pertaining to the field of electrochemical disinfection of natural waters and is intended for water treatment in the alimentary, domestic and industrial purposes. The device contains a conductor made in the form of the bifilar spiral inductor coiled from a slice, with an axis disposed on a center line of a plain of a plate. The ends of the conductor are connected electrically with a source of a single-phase alternating-current. After removal of the treated water from a variable magnetic field the alive micro-organisms between the coils of the inductor are absent. The technical result of the invention is an increase of productivity of the device.

EFFECT: the invention ensures an increased productivity of the device.

2 dwg

Description

The invention relates to techniques and technologies for natural water treatment and is intended for water treatment for food, domestic and industrial purposes.

Known analogues of the proposed device, for example:

1. Installation for producing water for injection by A. with. No. 393215, USSR, IPC С 02 В 1/16: В 01 J 1/06, BI №33 / 1973

2. A device for electric water treatment according to A.S. No. 478784, USSR, IPC С 02 В 1/82, BI №28 / 1975, etc.

Since the installation according to A.S. No. 393215 of the USSR contains filters mounted on a rack for purifying treated water from mechanical impurities, microorganisms, and ion-exchange demineralization, arranged in tiers, for example, along the vertical axis of symmetry and connected by nozzles between adjacent filters, containing filter elements made of foam, compressed from the ends by means of waterproof plates with holes , then the total hydraulic resistance of the installation is extremely high even in the initial period of operation, and over time, the installation Clogging of filtering elements, such an installation increases its overall hydraulic resistance, which reduces its performance to almost zero.

Device for electric water treatment according to A.S. No. 478784 of the USSR contains a pipeline of elastic material, on the outer walls of which electrodes with a rod are made to control the distance between them. Since between the electrodes of the device in the process of its operation there are walls of a pipeline made of an elastic material and a layer of treated water, due to losses in such a multilayer dielectric, the magnitude of the electric field in the aqueous medium cannot provide electrolysis of water, therefore microorganisms in the treated water in such a device do not die, which reduces the quality of processed by A. with. No. 478784 of water. In addition, the elastic pipeline compressed by electrodes along as No. 478784, respectively, has a small cross-section of hydraulic flow, which determines its high hydraulic resistance, reducing the performance of such a device and other similar devices.

However, methods and devices are known for performing water electrolysis by inducing secondary short-circuited electric currents in various liquid media, for example, wastewater, chemical conductive solutions, etc., described in the literature, for example:

1. Method and device for electrocoagulation of milk according to the patent of the Russian Federation No. 2211571, IPC ⁷ A 23 C 9/00, 9/14, BI No. 25/2003

2. The magnetodynamic apparatus for the production of sodium hydroxide by the electrochemical method under alternating current according to the patent of the Russian Federation No. 2147555, IPC C 01 D 1/04, C 25 V 9/00, BI No. 11/2000, etc.

Since the devices and installations (electrocoagulators) described in the literature have high hydraulic resistances, low AC power coefficients due to the high inductance of the primary windings, and have high mass and dimensional parameters, their direct use for disinfecting natural waters does not allow high performance.

The method and device according to the patent of the Russian Federation No. 2211571, IPC ⁷ A 23 C 9/00, 9/14, BI No. 25/2003, consists in creating, using a zigzag plate inductor placed inside the tank, an alternating magnetic field in a liquid medium, inducing in it secondary short-circuited electric currents.

Since the need to separate the liquid medium into solid and liquid phases determines a halt or a decrease in the fluid flow rate for the induction treatment and phase separation, the design feature of the prototype — the tank with inlet and outlet nozzles — creates additional hydraulic resistance to the hydroflow, reducing the overall productivity of the method and prototype devices.

In addition, the implementation of the primary winding in the form of a zigzag plate inductor inside the tank limits the volume of the processed liquid medium, further reducing the productivity of the method and device of the prototype.

The magnetodynamic electrolyzer described in RF patent No. 2147555 is also not intended for disinfection of natural waters, has a high hydraulic resistance due to the reciprocating movement of the hydroflow inside the device, which limits the speed of the hydroflow and reduces the performance of the device according to RF patent No. 2147555.

The prototype of the claimed invention is a method of electrochemical disinfection of natural waters according to US patent No. 4781805 A, CL. From 02 F 1/16 of 11/01/1988, including the processing of hydraulic flow at the place and during the consumption of disinfected water between the electrodes connected to an alternating current source.

Since, according to the prototype, an alternating electric current is supplied to the electrodes between which the flow of treated water flows, taking into account the high electrical resistance of natural waters, in order to achieve the technical result of the prototype, it is necessary to create large currents using high voltage, predetermining large mass-dimensional parameters of the device according to the prototype , limiting its use at the place of use of disinfected water for domestic and food purposes.

In addition, electrochemical reactions on the surface of the electrodes lead to an inevitable change in the chemical composition of natural water due to compounds involving the material of the electrodes, which also prevents the use of the prototype for widespread use in domestic and food purposes.

The technical result to which the claimed invention is directed is to increase productivity in the disinfection of natural waters for food, domestic and industrial purposes directly at the place and during their intended use.

To achieve such a technical result in the claimed invention, the disinfection of natural water in the stream of treated natural water is carried out in the pipeline at the place and during the use of water for the intended purpose by exposure to microorganisms with hydrogen ions and hydroxide groups formed in the process of electrolysis of water under the influence of an alternating magnetic field in a flowing spiral a plate inductor connected to an AC source.

Since the distance from the primary winding of the inductor, through which the primary alternating current is passed, from the sections of the hydroflow of the treated water is calculated in fractions of a millimeter, significant secondary short-circuited currents are induced in the treated water, electrolyzing the water in the entire volume of the hydroflow through the declared inductor, preventing reactions with the conductor material .

Since hydrogen ions and hydroxide groups have high chemical activity, they are aggressive reagents for all organic substances, including microorganisms contained in treated natural water.

The difference between the proposed device and the prototype device is the design of the inductor in the form of spiral turns around the axis along the midline in the plane of the plate conductor, the ends of which are connected to an AC source. Since the claimed design of the inductor allows you to install it directly in the pipeline at the place and during the use of disinfected natural water for the intended purpose, this distinctive design feature allows us to conclude that the claimed device meets the criterion of "novelty."

The analysis of patent and scientific and technical information did not reveal sources containing information about the popularity of these distinctive features of the claimed device for disinfecting natural waters, which indicates the compliance of the claimed invention with the criterion of "inventive step".

The proposed device for the electrochemical disinfection of natural waters works as follows: water from natural sources (lakes, rivers, reservoirs, etc.) is supplied using a typical water intake installations through a pipeline main to a place of consumption where an inductor is installed in the end of the pipeline in the form of a winding of spiral turns around an axis along the midline in the plane of a plate conductor, the ends of which are connected to an alternating current source.

When the shut-off and regulating equipment is opened at the place of consumption of the disinfected water, a hydroflow is formed between the spiral plate turns of the inductor, where the primary current of the inductor creates an alternating magnetic field, which induces secondary short-circuited electric currents between the spiral turns of the plate conductor in the aqueous medium. Since secondary electric currents in an aqueous medium carry out electrolysis of water, decomposing its molecules into hydrogen ions and a hydroxide group, the entire volume of the hydroflow inside the inductor is saturated with hydrogen ions and a hydroxide group. Since hydrogen ions and hydroxide groups are aggressive reagents for all organic substances, all microorganisms contained in natural water before entering the inductor die, providing an exit from the shut-off and control equipment at the place of consumption of disinfected water during the entire period of the power supply of the inductor, which and is the achievement of the claimed technical result, which cannot be achieved either by the indicated and other similar methods, or by the prototype method.

Thus, the technical result according to the claimed method is achieved by the fact that the conditions and necessary components for disinfecting natural water are created directly during the implementation of the method, at the place and during the consumption of disinfected water for the intended purpose with any given capacity.

To implement the proposed method for electrochemical disinfection of natural waters, a device for electrochemical disinfection of natural waters is proposed.

The device is illustrated by drawings, which show:

Figure 1 Device for electrochemical disinfection of natural waters.

General side view.

Figure 2 Device electrochemical disinfection of natural waters.

Vertical section with a diametrical plane

The inductor inside the device is not cut.

Figure 3 Device electrochemical disinfection of natural waters.

Cross section along aa in figure 1.

The device for electrochemical disinfection of natural waters contains a tubular body 1, at the ends of which threaded runs 2 and 3 are made for connecting a hydraulic line and a locking-regulating device. The hydraulic line and the locking and regulating device are used for their intended purpose, are typical, therefore, are not shown in the drawings. Two pairs of holes with electrically insulating plugs 4 with conductive leads 5 are made in the wall of the tubular housing 1, connected in pairs along the generatrix of the housing 1 by buses 6 with terminals 7. To the terminals 5 inside the housing 1 is attached, for example, by welding an inductor 8 of a spiral structure made of a plate conductor in the form spirals around the axis along the midline in the plane of the plate conductor, the corners of which are welded to the terminals 5 through the plugs 4. This design of the coil of the inductor 8 provides a consistent direction of the magnetic field in all the gaps between the spiral turns of the inductor winding 8. By analogy with the cylindrical bifilar windings known in electrical engineering, it is possible to call such windings from a plate conductor spiral plate bifilar windings, which have not been used anywhere in electrical engineering, have been performed, were not theoretically known, since nowhere in the electrical literature not mentioned or described.

The material of the tubular body 1 of the claimed device selects steel passivated to weak alkalis and acids. The material of the electrical insulating plugs 4 is selected high-strength polymer, for example, fluoroplastic, etc. or durable types of ceramics, for example, porcelain, etc. The material of the plate conductor of the spiral inductor 8 of the bifilar design is selected alloy that is resistant to weak alkalis and acids, for example, based on copper and nickel.

The overall dimensions of the housing 1, the inductor 8, the number of spiral turns and the cross-section of the plate conductor of the inductor 8 are not limited by anything and are determined by the specific operating conditions specified by the performance of the device and the power of the power source.

The AC source, switching equipment and connecting wires for the claimed device are used for their intended purpose, are typical, therefore, are not indicated on the drawings and are not described in the application text.

The proposed device for the electrochemical disinfection of natural waters works as follows: to the body 1 using threaded shafts 2 and 3, a supply pipe (not shown) and a shut-off and control device (not shown) are connected to the outlet of the disinfected natural water. Using typical connecting wires and typical switching equipment (not shown), terminals 7 are connected to a single-phase alternating current source (not shown).

Before consumption for the intended use of disinfected natural water using switching equipment, an alternating electric voltage is switched on from the power source, and alternating electric current flows through the spiral turns of the inductor 8, which creates an alternating magnetic field in the gaps between the spiral turns of the inductor 8. Since the spiral winding of the plate conductor is made bifilar, that is, the spiral coils of the coil of the inductor 8 are formed by the formation of spiral coils around an axis along the midline in the plane of the plate conductor of the inductor 8, then in all the gaps between the spiral coils of the inductor 8, the magnetic field from the adjacent coils is directed according to reinforcing each other to a double value in relation to the magnitude of the magnetic field from one turn. In addition, since the gaps between the spiral turns of the coil of the inductor 8 are small (of the order of several mm or less), the magnitude of the EMF of electromagnetic induction in the aqueous medium between the spiral turns of the coil of the inductor 8 reaches high values, which leads to the formation of intense electrolysis of water throughout the mass water in the gaps between the spiral turns of the winding of the inductor 8. Since, as a result of electrolysis of water in the gaps between the spiral turns of the winding of the inductor 8, hydrogen ions and hydroxide groups are formed, which are Since they are aggressive reagents for all organic substances, including microorganisms contained in natural water, all microorganisms in the water between the spiral turns of inductor 8 die. After the treated water exits from the gaps between the spiral turns of the winding of the inductor 8, that is, from the field of action of an alternating magnetic field, the hydrogen and hydroxide ions recombine into neutral water molecules, thereby stopping the high chemical activity of the aqueous medium, and at the exit from the shutoff-regulating device neutral disinfected water is formed. When opening the locking and regulating device, disinfected neutral water flows from it, which is consumed as intended in any given volumes determined by the performance of the claimed device. The performance of the claimed method and device for electrochemical disinfection of natural waters is determined by the overall dimensions of the housing 1 and inductor 8, the number of spiral turns of the inductor 8, the cross-section of the plate conductor of the spiral winding of the inductor 8 and the power of the power source, which are selected according to specific operating conditions. For example, an inductor 8 from a silver-plated copper plate with dimensions of 1 mm × 20 mm × 200 mm, rolled into a bifilar spiral around the midline according to the described external diameter of the spiral of about 20 mm, placed in a water pipe with an internal diameter of 22 mm directly in front of the water tap allows current through an inductor of 1 ampere using a typical LATR, and from a network of an alternating current of an industrial frequency of 50 Hz to receive completely disinfected water from known microorganisms with a productivity of 1 liter per minute, which is impossible for prototypes or other analogues with the above massovogabaritnymi indicators. In this case, the water treated according to the claimed method does not contain any new compounds.

The number of devices described above, interconnected in parallel or sequentially, multi-stage processing as described, is not limited by anything and is determined by specific operating conditions.

Claims (1)

A device for electrochemical disinfection of natural waters, containing a conductor connected to an alternating current source, characterized in that the conductor is made in the form of a bifilar spiral inductor rolled from a plate, with an axis located along the midline of the plane of the plate, and the ends of the conductor are electrically connected to a single-phase source alternating current.

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