RU2152906C2 - Water activation process - Google Patents

Abstract

FIELD: water treatment by magnetic field. SUBSTANCE: process includes pre-introduction of CaO in water and treatment of the latter with magnetic field built up by permanent magnets facing each other by their like-polarity poles for 0.1-2.0 s. EFFECT: improved effectiveness of process and increased lifetime of activated water. 2 cl, 7 tbl

Description

 The invention relates to the field of water treatment and can be used to obtain activated water using a magnetic field.

A known method of magnetic treatment of water, which consists in passing it through a transverse magnetic field with the preliminary introduction of ferromagnets into it, moreover, as ferromagnets use polydisperse particles with a size of 10 ^-8 -10 ^-5 m concentration of 0.03 - 0.1 mg / l (A USSR N 1608135 MKI5: C 02 F 1/48, 1990).

 The disadvantages of the method are the use of polydisperse particles, which complicate the process, a small temperature range of the treated water, a short “life time” of activated water, low processing efficiency, and the fact that the water is treated only in dynamic mode, as well as a high magnetic field strength.

 The closest in technical essence is the method of magnetic processing of liquid, including a spiral-helical flow of fluid into the zone of action of the magnetic field and axial drainage of fluid from this zone, and the fluid is introduced into the zone of action of the magnetic field simultaneously by two flows - tangential and axial (A.с USSR N 929586, MKI 3: C 02 F 1/48, 1982).

 The disadvantage of this method is the production of activated water with a small "lifetime", a small temperature range of the treated water, in which its activity is maintained, low processing efficiency, water treatment is carried out only in dynamic mode, high magnetic field strength of the magnets used.

 The objective of the invention is to obtain activated water with new properties.

 EFFECT: increased activation efficiency and increased “life time” of activated water, increased temperature range of treated water, in which its activity is maintained, due to increased mobility of water molecules due to the destruction of hydrogen bonds.

 The technical result is achieved by the fact that in the method of activating water, including treating it with a magnetic field of permanent magnets, with the preliminary introduction of CaO in an amount of 0.005 to 0.009 mol / l, the treatment is carried out by magnets facing each other with the same poles for 0.1 - 2.0 s In the method of activating water, water in static or dynamic states is treated.

 The proposed method of water activation allows you to get water that retains its properties for a long time (~ 10 or more years), in addition, water from the combined action of CaO and processing in the field of permanent magnets acquires properties that allow it to be used both in medicine and the food industry , and in various other areas of technology.

 Compared with the prototype, the preliminary introduction of CaO into water and treatment with permanent magnets facing each other with the same poles is new.

The best example of the implementation of the method
To implement the water activation method, electromagnets with a magnetic field of 0.06 - 0.1 A / m are used. Processing time is fixed by a stopwatch. The experiments are carried out with water, which is in a static state (in a vessel) and in a dynamic state (in a pipe) at room temperature for 0.1-1 s. Magnets are installed so that the poles of the same name face each other. Before treatment, CaO is added to the water. The resulting activated water was investigated by NMR spectroscopy (H ₀ = 67.6 MHz). Measure the spin relaxation time T ₂ , expressed as the line width at half maximum signal (Δν _1/2 ) at room temperature.

 The research results are shown in tables 1, 2.

As can be seen from the examples of Table 1, the complete activation of water occurs due to a change in the magnetic field of the magnets at a practically constant pH until a value of Δν _1/2 equal to 30.0 is reached. Full activation occurs with a minimum consumption of CaO, which, as you know, is a strong water disruptor.

In the proposed method, the influence of Ca ^{+ 2} ions is minimal, but its presence stimulates the activation process and increases the lifetime of activated water to several tens of years.

 When using activated water in medicine, the food industry, a restriction on the pH of the medium is required.

 Table 2 shows that the highest degree of activation can be achieved by changing the CaO content at a constant magnetic field strength of the magnets used. Changing the CaO content leads to changes in the pH of the solution, which is important to prevent scale in the pipelines.

 After receiving activated water by the claimed method, a number of studies were conducted to study its properties. Table 3 shows data on the effect of pH of activated water on its hardness and iron ion content.

 The activation efficiency was estimated by changing the current of the measuring cell when dissolving a portion of cement in plain and activated water. The experimental technique was as follows. 100 ml of test water was poured into the reaction vessel with mounted measuring electrodes and a stirrer. The electrodes were connected to an electronic circuit supplying the electrodes with alternating current, the output of which is connected to a recorder with a measuring range of 0-100 mA. After this, the mixer and the tape drive were turned on, a cement sample was poured into the reaction vessel at a rate of 2 g / l.

 The kinetics of cement dissolution was recorded for a certain time, for example, 5 min. The difference between the readings after 5 min of dissolution and the readings before the start of dissolution (Δ1, Δ2) was determined from the chart tape of the recorder. This increment of readings is taken as a criterion for assessing the effectiveness of water activation.

 Table 4 shows data showing the effect of water activation on cement dissolution in the preparation of concrete mixtures.

Analysis of the results showed that the water activated by the proposed method, depending on the value of Δν _1/2 1.6-2.3 times more efficiently dissolves the cement compared with water prepared by the known method.

 Table 5 shows the results of cement dissolution in activated and plain waters depending on the time elapsed after activation.

 From table 5 it is seen that the "lifetime" of activated water by the known method is only 5-10 minutes, while the water prepared by the proposed method retains its properties for much longer. Separately set experiments have shown that water according to the proposed method retains its active properties ("lifetime") for 10 years or more.

 Studies have been conducted to determine the effect of heating temperature on the activity of prepared water. The experimental results are shown in table 6.

The experimental results show that when the temperature is increased to 50 ^o C, the active properties of the water prepared by the known method disappear, while the water activated by the proposed method not only retains its active properties when the temperature is increased to 100 ^o C, but also after three times boiling and cooling increases its active properties on average 30% compared to the original activation temperature of 20 ^o C. This is very important when using the activated water in boilers and to prevent scaling in m cine when to ensure sterility water three times heated and cooled. Experiments to evaluate the effectiveness of water activation by the proposed method in statics and dynamics are shown in the table
Studies have shown that according to the proposed method, it is possible to activate water that is in the static (in the tank) and in the dynamics (in the pipeline).

 The proposed method of water activation is easily feasible in an industrial environment, the pH of the water is in the range of 7.0 - 8.0, which is safe for the use of water in the food industry, in medicine and in agriculture. The experiments were carried out at room temperature.

Claims (2)

 1. A method of activating water, including treating it with a magnetic field of permanent magnets, characterized in that CaO is first introduced into it in an amount of 0.005-0.009 mol / l, and the treatment is carried out with magnets facing each other with the same poles for 0.1 - 2 , 0 s.  2. The method of water activation according to claim 1, characterized in that they process water in static or dynamic states.

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