RU2226506C1 - Method of preparing an activated liquid medium - Google Patents

Abstract

FIELD: liquid medium disinfection techniques. SUBSTANCE: liquid medium is heated by constant electric current through electrodes, on which voltage is imposed to achieve current intensity 4.0-5.0 A until glowing corona discharge appeared on the upper electrode, after which electrode voltage is lowered and liquid medium is passed through electrolyzer at velocity 180-190 ml/min. More specifically, liquid medium is sodium chloride solution, which is heated to 75-79 C. At this temperature, electrode voltage is set within a range of 2000-2500 V resulting in appearance of glowing corona discharge on the upper electrode. Current intensity is then lowered to 0.3 A and, simultaneously, electrode voltage is lowered to 550-600 V, whereupon liquid medium activation process is continued. When electrode voltage and current intensity are lowered below specified values, activation process is ended. EFFECT: improved economical efficiency and safety of method.

Description

The invention relates to the disinfection of liquid media and can find application for the disinfection of food, fruits, vegetables, in agriculture for the disinfection of seeds before sowing, in veterinary medicine in the treatment of various infectious diseases in animals, as well as in healthcare in the treatment of various purulent infections,

As a result of patent research on the prior art in this field, it was revealed that one of the priority areas in the field of disinfection of liquid media is the study of methods for disinfection of liquid media (water) by electro-hydraulic processes.

Known electro-hydraulic processing of the crude liquid according to US patent No. 3366564, class. 204-186, publ. January 30, 1968, including the supply of infected (untreated) liquid to the electric discharge chamber, charging of capacitors with a total capacity of more than 5 microfarads (microfarads) and initiating a discharge between the electrodes immersed in the liquid.

Known electropulse method for disinfecting liquids, according to patent RU No. 2058940, class. C 02 F 1/48, publ. 04/27/96, including the supply of untreated liquid to the working volume, charging the electric power storage in constant power mode, initiating an electric discharge in the liquid at a rise rate of the leading edge of the voltage of at least 10 ¹⁰ V / C, suppression is provided in the lines for supplying and discharging liquid and damping of compression waves.

The disadvantage of both analogues is the complexity of the processes of disinfecting liquids and high energy consumption. In addition, for the destruction of microorganisms in a liquid medium, electrohydraulics is used, controlled by electric pulses with alternating current, which leads to the death of the flora.

Closest to the claimed technical essence and the achieved technical result is the "Method of producing activated liquid medium" according to patent RU No. 2045480, class. C 02 F 1/461, publ. 10.10.95 g. (Applicant N. Ryasnov), including heating a 0.5% alkali solution to a temperature of 80-85 ° C in a chamber in which the electrodes are located one above the other, applying a constant voltage of 1400-1500 to the electrodes B, with a current strength of 40-50 A until a luminous coronary electric discharge appears on the upper electrode, when the current strength decreases, an alkali solution is passed through the chamber at a speed of 180-190 ml / min, and when the current strength reaches 0.5 A, the voltage on the electrodes reduce to 650-700 V.

However, the known analogue is unsafe to use and has a significant energy consumption.

The technical task of the proposed method is to create an economical and safe way to obtain activated liquid media with high and stable bactericidal properties, as well as reducing energy consumption during its implementation.

The problem is solved and new useful results are obtained due to the fact that in addition to the signs similar to the closest analogue: heating the liquid medium in the electrolyzer with direct electric current with the electrodes located one above the other, applying voltage to the electrodes to obtain a current strength of 4.0-5.0 And the appearance of a luminous corona discharge on the upper electrode, a decrease in the voltage at the electrodes and transmission of a liquid medium in the electrolyzer at a speed of 180-190 ml / min, new significant features were introduced: a chlorine solution is used as a liquid medium When it is heated to a temperature of 75-79 ° C, they simultaneously set the voltage on the electrodes in the range of 2000-2500 V, after the appearance of a luminous corona discharge on the upper electrode, reduce the current strength to 0.3 A and simultaneously reduce the voltage on the electrodes to 550 -600 V, after which the activation of the liquid medium is continued. When the voltage or amperage drops below the specified limits on the electrodes, the activation process is stopped.

The use of a solution of sodium chloride heated to not more than 75-79 ° C as a liquid medium allows, at a current strength of 4.0-5.0 A, to increase the constant voltage across the electrodes in the range of 2000-2500 V, while not increasing the consumption electricity. In addition, the possibility of the occurrence of burns and other painful wounds when using this method is prevented, thereby ensuring safety in its implementation, and as an inexpensive and readily available drug, sodium chloride, provides a cost-saving method proposed for patenting.

Reducing the voltage at the electrodes to 550-600 V with a current strength of up to 0.3 A also gives energy savings.

The combination of temperature conditions for heating a solution of sodium chloride to 75-79 ° C with a change in voltage at the electrodes at the above optimal conditions provides intensive activation of the liquid medium, which leads to a change in the structure of its molecules and gives the activated liquid medium high and stable bactericidal properties.

Analyzing the above described analogues, as well as other methods known in science and technology for producing activated liquid media, it was found that they lacked the features inherent in the claimed invention, and therefore, we can conclude that the patented ″ Method for producing activated liquid medium ″ Complies with the condition of novelty, inventive step and industrial applicability.

The method is implemented on a known standard installation, in connection with which the drawing is not attached.

The method is as follows.

A solution of sodium chloride is fed into the electrolyzer, a continuously constant electric current is passed through it through electrodes located one above the other, the solution is heated to a temperature of no higher than 75-79 ° C, at this temperature the voltage on the electrodes is set within 2000-2500 V and current 4 , 0-5.0 A. As a result, a rapid evolution of gas bubbles begins in the electrolyzer and a corona discharge glowing bright orange appears on the upper electrode, i.e. in electrolysis, the process of activation of a liquid medium begins. During this period, a solution of sodium chloride begins to be continuously passed through the electrolyzer at a speed of 180-190 ml / min. At the same time, the current strength is reduced to 0.3 A, and at the same time the voltage at the electrodes is reduced to 550-600 V. During this cycle, i.e. during the period of activation of the liquid medium and a decrease in the current and voltage within the specified limits, the liquid molecules are deformed with a change in its crystal lattice, i.e. the liquid activation process continues to be carried out at stably set voltage parameters (550-600 V) and current strength (up to 0.3 A) and a luminous corona discharge. Further, the voltage or current strength at the electrodes is reduced below predetermined parameters (for example, to 500 V voltage and to 0.29 A current strength) and the process of activation of the liquid medium stops.

The resulting activated liquid medium is filled into ordinary glassware and placed in a place open to sunlight. In this state, the activated liquid medium is stored for more than a year.

Compared with analogs, the present invention is carried out in an economical and safe way, in connection with the use of a solution of sodium chloride and lowering the temperature to heat it in the cell.

In addition, by reducing the current strength to 0.3 A and the voltage at the electrodes to 500-600 V, the power consumption is reduced, which gives an additional economic effect.

The resulting activated liquid medium has high bactericidal properties.

The research results showed: fruits treated with activated liquid medium do not rot and do not become moldy for 5 months. Vegetables treated with activated liquid medium are stored for a long time without signs of decay. Due to the fact that the activated liquid medium obtained by this method easily penetrates the cell membrane, it is possible to treat viral diseases, such as infectious hepatitis, AIDS. Preliminary studies suggest that the activated liquid medium has immunomodulating activity, which may find application in the treatment of immunodeficiencies and allergies.

The resulting liquid medium can be used in the food industry for processing and storage of vegetables and fruits, their preservation with the preservation of a complex of vitamins, preservation and storage of large reserves of water in containers and for other purposes in the food industry.

Clinical experiments conducted with purulent wounds showed that non-healing sluggish purulent wounds healed after treatment with the resulting activated liquid medium for several days, with the formation of juicy granulations and rapid epithelization of the wound.

The activated liquid medium obtained in this way, standing in an open vessel in direct sunlight, remains sterile for a year.

Microbiological studies conducted in the Krasnodar Microbiological Laboratory at the Regional Sanitary and Epidemiological Station showed that the activated liquid medium obtained with this method with the obtained stable bactericidal properties, after instant exposure to the flora, the solutions of which were seeded with various bacteria, became sterile, which is confirmed by the results of microanalysis.

At the Department of winemaking of the Kuban State Technological University, tests were carried out on the storage of grapes. Grapes treated with activated liquid medium were stored for a week, and examination of the skin of grapes under a microscope did not reveal the presence of mold.

The activated liquid medium obtained by the method proposed for patenting has such high and stable bactericidal properties that when it is added to other liquid media with high bacterial contamination, it allows for a long time to maintain large volumes of drinking water in the arid regions of the Krasnodar Territory.

Thus, the proposed method can be used with high technical and economic results in health care, agriculture, food industry, medicine and is patentable.

Claims (1)

A method of producing an activated liquid medium, including heating the liquid medium with direct electric current through the electrodes, applying voltage to the electrodes to achieve a current strength of 4.0-5.0 A and the appearance of a luminous corona discharge on the upper electrode, reducing the voltage across the electrodes and passing the liquid medium into an electrolyzer with a speed of 180-190 ml / min, characterized in that a sodium chloride solution is used as a liquid medium, which is heated to a temperature of 75-79 ° C, at this temperature the voltage on the electrodes is set to the limit x 2000-2500 V and a luminous corona discharge appears on the upper electrode, after its appearance they reduce the current strength to 0.3 A and at the same time reduce the voltage on the electrodes to 550-600 V and continue the process of activation of the liquid medium, and when the voltage decreases on the electrodes or currents below predetermined limits, the process of activation of a liquid medium stops.