RU2194017C2 - Device for contactless activation of liquid - Google Patents

Abstract

FIELD: liquid activation devices; applied electrochemistry; treatment of potable and mineralized water. SUBSTANCE: device has reservoir for electrochemically activated liquid with electrodes arranged inside it and reservoir for liquid of contactless activation. Reservoir for electrochemically activated liquid has thin wall; this reservoir is placed inside reservoir used for liquid of contactless activation. EFFECT: extended functional capabilities; simplified construction; enhanced efficiency of treatment of liquid. 1 dwg, 1 tbl

Description

 The invention relates to devices for activating liquids, in particular to applied electrochemistry (electrolyzers for the treatment of aqueous solutions), can be used for the treatment of drinking and saline water, physiological, therapeutic solutions, as well as blood. It is aimed at increasing the efficiency of electrochemical treatment of a liquid, obtaining a liquid with desired properties, as well as transferring it into a thermodynamically nonequilibrium (activated) state, characterized by increased physicochemical activity, without changing the chemical composition of the activated liquid.

 A device for the electrochemical treatment of liquids (V. M. Bakhir. Electrochemical activation. - M.: VNIIIMT, 1992, part 1, p.233-237), containing the anode and cathode, placed in an electrochemically activated liquid and separated by semipermeable aperture. This device allows to obtain fluids with a given composition and properties (in particular, redox potential (redox potential), microcluster structure), but has the disadvantage that in the process of activation there is a change in the chemical composition of the contact-activated liquid and gas evolution due to contact with the surface of the electrodes.

 A device is known for non-contact activation of a liquid - physiological saline by exposure to a magnetic field, ultraviolet radiation, and a laser, and to increase the degree of activation, an acoustic pulse generator is additionally used (B. I. Kiselev, AS USSR 1827274 Al, A 61 N 5/06, 1992). It allows you to activate the liquid without changing its chemical composition. According to the author, with non-contact action on liquids with fields known in physics in liquids, secondary stimulated emission arises and can exist for a certain time due to the decay of large liquid clusters with small Debye numbers into small (electrically active) microclusters (of two or three dipoles) with large numbers of Debye and increased reactivity, which is confirmed by the data of electron paramagnetic resonance (B. I. Kiselev. Adaptive treatment method, issue 1. - St. Petersburg, 1997). The device for non-contact activation of fluid has been widely used in medicine in the treatment of many diseases - cardiovascular, trophic ulcers, compression fractures and HIV infection (Medical newspaper 19, 1993).

 The disadvantage of this device is the complexity of the technical embodiment.

 Also known is a device for non-contact activation of liquids proposed by V.M. Bakhir (V.I. Prilutsky, V.M. Bakhir. Electrochemically activated water: abnormal properties, the mechanism of biological action. - M .: VNIIIMT AO NPO Ekran, 1997, p. 67-74). The device contains electrodes - the anode and cathode, separated by a diaphragm and placed in an electrochemically activated (ECA) liquid. In this case, the capacitance for contactlessly activated (BKA) liquid is placed in the ECA liquid either between the cathode and the diaphragm, or between the anode and the diaphragm. This device allows you to activate the liquid (change ORP, the structure of the liquid) without changing its chemical composition.

 The disadvantages of this device are the design complexity due to the presence of the diaphragm and the formation of stagnant zones in the ECA of the liquid, as well as the low efficiency of the installation.

 The phenomenon of non-contact electrochemical activation of a liquid was theoretically predicted in 1982 by I.L. Gerlovin (IL Gorlovin. Fundamentals of a unified theory of all interactions in matter. - L .: Energoatomizdat, 1990, p. 432) and experimentally confirmed by V.M. Bahir in 1992. Non-contact activation of the liquid I.L. Gerlovin explained on the basis of the theory of the fundamental field, based on the birth and destruction of elementary particles of vacuum. These particles, in his opinion, are responsible for the process of contactless activation, which, from his point of view, is possible only if there is a diaphragm between the anode and cathode. However, it was further shown that non-contact activation of the liquid is possible even in the absence of a diaphragm in the device for electrochemical activation.

Closest to the proposed invention is a device containing a container for ECA fluid with electrodes placed in it without a diaphragm and a container with a thin wall for BCA fluid placed in a container for ECA fluid (Shironosov V.G., Shironosov E.V. Contactless experiments electrochemical activation of water. - II international symposium "Electrochemical activation in medicine, agriculture, industry", part 1. - M., 1999, S. 66-68) - prototype. The authors of this device experimentally found that non-contact activation of the liquid occurs not only in the cavities between the electrodes and the diaphragm, but also throughout the volume of the ECA of the liquid, including in the absence of a diaphragm. The effects discovered by the authors are explained as follows. The anomalous properties of non-contact activation are due to the appearance of stable high-energy resonance systems from oscillating "dipoles" of water (ions, molecules, OH ^- etc.) near the anode and cathode (microclusters). In statics, such systems from dipoles are unstable (collapse effect), but in dynamics, at resonance, the effect of dynamic stabilization of unstable states is manifested. The alternating electromagnetic field from two synchronously oscillating dipoles (SOD) has a narrow frequency spectrum (resonance effect) and decreases proportionally to 1 / r ⁴ , where r is the distance between the BKA liquid and the ECA liquid, i.e. wall thickness between them. The maximum of the spectrum most likely falls on the microwave range, because for OH ^{- the} characteristic frequencies of rotational transitions are about 2 GHz (wavelength λ _o = 18 cm). Therefore, contactless activation can occur only through thin walls, at close distances from SOD, and substantially depends on the spectral properties of the material of the septum. Additionally, experiments on the non-thermal effect of the microwave field (2.4 GHz) confirmed this explanation.

 A disadvantage of the known device is the low efficiency (efficiency) of the liquid processing, as well as the limited operational capabilities of the device. In addition, with large volumes of the processed fluid, the complexity of the device increases due to the increase in the volume and dimensions of the device for ECA fluid.

 The present invention is aimed at simplifying the design, increasing the efficiency of liquid processing and expanding the operational capabilities of the device.

 The specified technical result is achieved in that in a device for non-contact activation of a liquid containing a container for an electrochemically activated liquid with electrodes placed in it and a container for a contactless activated liquid, in accordance with the proposal, the container for an electrochemically activated liquid is made with a thin wall and placed in a container for contactlessly activated fluid.

 The implementation of the capacitance for ECA of a liquid with a thin wall and its location in a container for BKA fluid can significantly expand the operational capabilities of the device due to the unlimited choice of dimensions and shape of the tank for BKA fluid; to simplify the device as a whole when processing large volumes of liquid, since it does not require special redesign of the device for ECA of the liquid, increasing its volume and dimensions; increase the efficiency of liquid processing due to a significant change in its redox potential.

 The invention is illustrated by the drawing, which shows a device for non-contact activation of a liquid with the location of the capacitance with ECA fluid and electrodes inside the tank with BKA fluid.

 A device for non-contact activation of a liquid (see drawing) consists of electrodes (for example, an anode and a cathode) 1 and 2 placed in a container 3 for ECA liquid and a container 4 for BKA liquid. Capacity 3 for ECA fluid is made with a thin wall and placed in capacity 4 for BKA fluid.

 A device for non-contact activation of a liquid works as follows.

 The fluid for electrochemical activation is poured into a thin-walled container 3 with electrodes 1 and 2 and immersed in a liquid crystal filling tank 4. When electrodes 1 and 2 are connected to a voltage source (not shown), electrochemical activation of the liquid takes place in container 3, and through a thin wall of the container 4 - non-contact activation of the treated fluid.

 The possibility of contactless activation of the liquid using the proposed device and achieve a technical result when implementing the invention, in comparison with the performance of the prototype device, are confirmed by the following example.

 A container with ECA liquid (1.5% NaCl aqueous solution) was placed in a container with BKA liquid (physiological solution). Activation was carried out for 30 min with the parameters of the electrode supply - current I = 5A, voltage U = 14V (with and without a diaphragm). The results of the liquid treatment are shown in the table (data for the prototype device are shown in brackets).

 From the table it follows that, firstly, non-contact activation of the liquid is fundamentally possible when placing a thin-walled device for ECA fluid (both with a diaphragm and without it) in a tank for liquid BCA and, secondly, the degree of activation in the proposed device is greater, than in the prototype device.

 After 2 hours, the ORP index changed as a result of contactless ECA undergoes relaxation, which indicates the absence of stable activation products penetrating into the vessel. Therefore, contactless ECA is carried out at the energy level without the accompanying transport (mass transfer) of ions through the walls of the tank.

Claims (1)

 A device for non-contact activation of a liquid, comprising a container for an electrochemically activated liquid with electrodes disposed in it and a container for a contactless activated liquid, characterized in that the container for an electrochemically activated liquid is made with a thin wall and placed in a container for a contactless activated liquid.

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