RU2151742C1 - Method of preparing active water of solution - Google Patents

Abstract

FIELD: agriculture, food industry, medicine and biotechnology. SUBSTANCE: method comprises exposing water to physical factor such as ultraviolet radiation with current density on surface of liquid of at least 0.4 W/sq.cm and exposure time of at least 1 min an thickness of liquid layer of not greater than 1 cm exposure time exceeding by 1 minute as thickness of liquid layer increases by 1 cm. EFFECT: greater efficiency of activation of water, increased effect on biological structures and longer periods for preservation of qualities of water on completion of activation process. 4 cl

Description

 The invention relates to agriculture and the food industry, as well as to medicine and biotechnology, and in particular to methods for producing active water or solution.

 Known methods for producing active water used for various processes, for example, for soaking seeds, including exposure to water by electric current [1]. In this case, this kind of exposure allows you to change the pH of the water, which is essential for surface treatment of seeds, however, the effectiveness of further use of this kind of water is explained only by the surface etching effect and in most cases this method is of little use and is suitable.

 Also known is a method of producing active water, which can be effectively used for watering plants, drinking animals, as well as for preparing various food products, including exposure to water by a physical factor, in particular a magnetic field [2].

 Water or a solution after treatment retains its active properties for a long time, so with a certain exposure of water after treatment, there is a significant decrease in the amount of soluble salts in water that precipitate, watering this kind of water allows you to get a higher yield compared to ordinary water, using this kind of water for microbiological experiments shows an increase in the growth of colonies of microorganisms, etc.

 However, this kind of effect is not effective enough, so, in some cases, the percentage of salt release from water is insufficient, the shelf life of this treated water is short, the effectiveness of the solutions on biological structures is insufficient.

 The technical task of the present invention is to increase the efficiency of water activation, the effectiveness of the impact on biological structures and increase the timing of the preservation of their qualities by water after the completion of the activation process.

The specified technical problem is solved in that ultraviolet radiation with a power flux density of at least 0.4 W / cm ² and an exposure time of at least 1 minute with a layer thickness of not more than 1 cm is used as a physical factor with a subsequent increase in exposure time for 1 minute with an increase in the thickness of the water layer for every next 1 cm.

 In addition, during the irradiation process, the surface tension of the water or solution is recorded, and when it increases by more than 3 times relative to its initial value, the irradiation is stopped.

 Moreover, in the process of water activation, the ultraviolet radiation flux is modulated.

 The claimed method is implemented as follows.

The liquid is placed in a vessel and exposed to it with ultraviolet radiation generated, for example, by a DRTL lamp, it is possible to act with any light stream, in the spectrum of which there is an ultraviolet component of the required power per unit surface. The height of the liquid in the vessel was 1 centimeter, the flux density was 0.5 W / cm ² , the processing time was 2 minutes. After treatment for testing the quality of water activation, experiments were carried out on the soaking of seeds, while in comparison with the soaking of the seeds with plain untreated water and “magnetized” water, the germination rate was 26 and 16%, respectively. Also, in comparison with the above methods, the feed was soaked, while the final product (milk yield) increased by 5 and 7%, respectively, we note that in the first case the soaking was carried out with "electroactivated" rather than plain water. When studying the growth of the number of bacteria, an increase in the rate of their growth was noted with the use of water treated by the claimed method with respect to “magnetized” water and “electroactivated” water of the corresponding pH value by 7 and 11%, respectively.

 The experiments showed that with an increase in the thickness of the processed liquid layer, it is also necessary to increase the exposure time, i.e. exposure to water radiation, and this time must be increased by 1 minute with an increase in thickness by 1 cm, i.e. with a layer of 5 cm, the exposure time should also not be less than 5 minutes.

 Water treatment can also be carried out in a stream, i.e. when moving water, but the above parameters must be observed.

One of the criteria for ending exposure is to check the magnitude of the surface tension of water. In the normal state, this value is 70 - 76 • 10 ^-3 n / m. During processing, this parameter was recorded, and an increase of this parameter by a factor of three corresponds to the time interval of ultraviolet exposure indicated above. It should be noted that with an increase in the exposure time, the value of this coefficient can increase by 10 or more times from the initial one, in this case the experimental results will be even higher, however, after a triple increase in surface tension, the increase in the results will already be insignificant, i.e. the effect of "saturation" takes place, and after a three-fold increase in the coefficient of surface tension to continue exposure is ineffective.

 In the process of exposure to water, it is advisable to modulate ultraviolet irradiation, for example, by the frequency of (any) one of the known biological rhythms of a given type of biological object, which then will be affected by this water, the modulation can be amplitude or pulsed. This additionally leads to an increase in the efficiency of the subsequent action of water by 3 - 5%.

 Similar experiments were carried out with respect to aqueous solutions, for example, aqueous fertilizer solutions. The test results showed that the effectiveness of the use of such solutions processed by the above method is incomparably higher, as indicated by an increase in plant productivity by an average of 50 - 70%.

 Similar experiments were carried out during the processing of solutions of biologically active substances, which made it possible to increase their efficiency by an average of 1.5 times.

 Experiments on the activation of nutrient solutions for microorganisms also showed a significant increase in performance compared with known processing methods.

 The use of the claimed method for producing active water or solutions allows the effective processing of various kinds of biological structures, seeds, plants, feeds, microorganisms, which makes it possible to apply this technology in agriculture, food and biotechnological industries, and medicine.

Sources of information
1. V.I. Mishchenko et al. Presowing treatment of seeds. Abstracts of the scientific-practical conference "Mechanization and automation of technological processes in agricultural". M., 1989, p. 18-19.

 2. V.I. Cool. Water and a magnet. M .: Nauka, 1973.

Claims (3)

1. A method of producing active water or solution, including exposure to water by a physical factor, characterized in that ultraviolet radiation with a power flux density on the liquid surface of at least 0.4 W / cm ² and an exposure time of at least 1 min is used as a physical factor when the thickness of the liquid layer is not more than 1 cm, followed by an increase in the exposure time by 1 min with an increase in the thickness of the liquid layer for each next 1 cm.  2. The method according to claim 1, characterized in that during the exposure process, the surface tension of the liquid is recorded, and when it increases more than 3 times relative to its initial value, the effect is stopped.  3. The method according to claim 1, characterized in that the ultraviolet radiation flux is modulated.