RU2169121C1 - Water treatment plant - Google Patents

Abstract

FIELD: treatment of water; portable units for treatment of water; magnetic and electrochemical activation of water. SUBSTANCE: proposed plant includes water purification unit connected with electrolysis reservoir inlet; inlet is provided with circular ferromagnet; electrode made from pure graphite or stainless steel is used as anode in electrolysis reservoir and electrode made from titanium or stainless steel is used as cathode; electrodes are connected with DC source; semi-permeable diaphragm separating the electrodes is made through impregnation of porous base with nitrocellulose solution in organic solvent or in mixture of organic solvents, preferably dichloroethyl ether and hexane followed by keeping this solution in air, flushing and drying; provision is also made for manual and automatic devices for breaking electric circuit. Water purification unit includes preliminary purification filter, high-quality activated carbon and ion-exchange resin. EFFECT: possibility of production of highly active anolyte preferably at pH= 3 to 3.3 and highly active catholyte preferably at pH=9.6 to 9.8 which retain their properties for extended period of time. 7 cl, 1 dwg

Description

 The invention relates to water treatment, in particular, to portable devices for water purification and its magnetic and electrochemical activation. It can be used in all cases where antiseptics and stimulants of biological processes are useful, for example, at home for treating seeds of various plants before planting, for watering the soil in order to destroy weeds, accelerate the growth of cultivated plants and increase their productivity, as well as for processing wounds in animals and humans, and for the treatment of a wide range of diseases. The invention can be used to intensify various technological processes.

According to modern concepts, under normal conditions (t = 20 ^o C, P = 1 atm) and in the absence of external influences, water is a homogeneous isotropic mixture of bulk clusters, polar molecules of water and its ambipolar radicals. As a result of exposure to an electric field, a modification of the internal structure of water occurs. In this case, both in the cathode zone and in the anode zone there is a dynamic accumulation of activated water with modified structures, which are stored in both catholyte and anolyte for some time, when this structure relaxes to the initial inactivated water after separation from the electrolysis tank .

 Known benchtop device for producing catholyte (alkaline "live") and anolyte (acidic "dead") water, designed to comply with electrical safety requirements, containing a glass container with a lid and a cathode and anode installed in the container, placed in a canvas bag (RU 2084246 C1, A 61 N 1/44, 07.20.97). The disadvantage of this device is the use of an imperfect membrane and the inability to prepare catholyte with high pH and anolyte with a fairly low pH, as well as a low degree of purification of water from impurities.

 Partially these disadvantages are deprived of the device for producing electroactivated water, known from RU 2015110 C1, C 02 F 1/46, 30.06.94, comprising a multi-chamber housing divided by diaphragms made of dielectric material, for example, from belting fabric, to anode and cathode cameras. Anodes and cathodes are made of perforated stainless steel plates. At the inlet of tap water into the device, a sludge separator and anti-scale magnetic device are installed. However, this device is rather bulky, and the water obtained during its use retains its active properties for a relatively short time. In addition, there is no automatic adjustment of the pH of the anolyte and / or catholyte, as well as a high degree of purification.

 The problem of controlling the pH values of catholyte and anolyte can be solved by using a multi-stage voltage divider made of a set of capacitive and ohmic elements (RU 2148029 C1, C 02 F 1/461, 04/27/2000). However, this device is complicated in execution and quite expensive. In addition, it is not intended to produce catholyte and anolyte with pH values that are very different from the neutral region.

 The closest analogue of the claimed invention is a water treatment device containing an electrolysis tank, including a semi-permeable membrane separating the anode and cathode connected to an electric current source, and means for opening the electric circuit, as well as a permanent magnet and a node sequentially located behind the electrolysis tank water purification (RU 2145243 C1, A 61 N 1/44, C 02 F 1/461, 02/10/2000). The disadvantages of this device are its significant dimensions, the inability to obtain high-purity anolyte and catholyte and maintain their activity for a long time.

 The technical problem to which the present invention is directed, was the creation of a compact device that provides, along with effective water purification, the production of a highly active anolyte, preferably with a pH of 3-3.3, and highly active catholyte, preferably with a pH of 9.6-9.8, for a long time retaining their properties.

 The problem is solved in that the water treatment plant contains sequentially placed water treatment unit connected to the input to the electrolysis tank, an annular ferromagnet is installed at the input, an electrode made of pure graphite, titanium or stainless steel is used as an anode in as a cathode - an electrode made of titanium or stainless steel; the electrodes are connected to a direct current source, the semi-permeable membrane separating the electrodes is obtained by impregnating a porous or woven base with a solution of nitrocellulose in an organic solvent or a mixture of organic solvents, followed by exposure to air, washing and drying, in addition, means for manual and automatic (possibly programmable) are provided circuit breaker.

 Preferably, a solution of nitrocellulose in a mixture of hexane and diethyl ether is used to impregnate a woven or porous base of a semipermeable membrane. Most preferably, the impregnation solution contains, parts by weight: 10-20 nitrocellulose, 20-70 diethyl ether, 70-20 hexane.

 In the particular case of the invention, ultrapure graphite or stainless steel with a high titanium content, for example, grade X18H10T, is used for the manufacture of electrodes.

 Preferably, the water treatment unit includes a pre-filter, high-quality activated carbon and an ion-exchange resin.

 In particular, tap water is used as the source water. Electrolysis is carried out, preferably until the pH values of the anolyte and catholyte are reached, respectively, equal to 3-3.3 and 9.6-9.8.

 Preferably, the installation comprises a housing made of two parts, the upper of which includes a container for source water, a replaceable cartridge containing a pre-filter, high-quality activated carbon and an ion-exchange resin, and a detachable annular ferromagnet located in the region between the inlet intermediate between the two parts of the housing in the lower part, which is a capacitance for electrolysis, including a cathode space in which a cathode of titanium or stainless steel is located, and an anode chamber with placed inside the anode of pure graphite, titanium or stainless steel, separated from the cathode space using a semipermeable membrane obtained by impregnating a porous or woven base with a solution of nitrocellulose in an organic solvent or a mixture of organic solvents, followed by drying and washing, with the anode and cathode connected to the source electric current and the device is equipped with means for manual and automatic opening of the circuit.

 It is the combination of essential features of the invention reflected in the independent claim that provides the above technical result, and the features of the dependent claims correspond to the preferred options for its implementation.

 The presence of a water treatment unit and a permanent ring magnet to the capacity for electrolysis can reduce to a minimum or prevent precipitation in catholyte, improve the quality of water and the efficiency of its activation. The purification unit, containing a pre-filter, high-quality activated carbon for sorption of harmful impurities and special ion-exchange materials for removing heavy metal ions from water, makes it possible to purify source water from active chlorine by 95%, phenol by 90%, organochlorine compounds by 85% , petroleum products - 85%, toxic metals such as copper, lead, aluminum - by 80%, and also eliminate its unpleasant smell and taste.

 The presence of a magnetic filter allows you to streamline the structure of water, reduces its rigidity and promotes electrolysis.

 The proposed membrane obtained by impregnating a porous or woven base with nitrocellulose has pores with a narrow size distribution, is chemically inert, does not contain toxic components, and is easy to manufacture. The use of this membrane allows isolating anolyte from catholyte and increasing, respectively, their acidity and basicity.

 Electrodes made of pure graphite, titanium and stainless steel, mainly X18H10T, are stable in acidic and alkaline environments, as a result of which foreign ions do not enter the anolyte and catholyte.

The resulting catholyte contains dissolved hydrogen (H ⁺ , H ⁰ , H ₂ ), which has high biological activity. In this regard, it can be used as a regenerator of cellular respiration of the vascular systems and a normalizer of redox processes of membrane cell structures. Anolyte can be used, for example, as a powerful antiseptic. The catholyte and anolyte obtained using this device retain their properties for a month or more when stored in a sealed container.

 The invention is illustrated in the drawing, which shows a diagram of a preferred embodiment of a water treatment plant according to this invention.

 The installation comprises a casing, consisting of upper 1 and lower 2 parts, interconnected to form an intermediate region 3. In the upper part of the casing 1 there is a container for source water 4 and a replaceable cartridge 5 containing a pre-filter, high-quality activated carbon and ion-exchange resin. In the upper part of the housing 1 around the input 6 to the lower part of the housing 2 is located an annular magnet 7. The lower part of the housing 2 is used for electrolysis and includes a cathode space 8 in which the cathode 9 is placed, and the anode chamber 10, in which the anode 11 is installed, separated from the cathode space 8 with a semipermeable membrane 12. The electrodes are connected to a half-wave AC rectifier (not shown), which is connected to the mains. The device is equipped with means for manual and automatic opening of the power supply network (not shown), preferably located in the intermediate region 3.

 Installation works as follows. The original tap water is poured into the container 4, it passes through the cartridge 5 (water treatment unit), is purified and through the input 6, subjected to magnetic treatment with a magnet 7, enters the anode chamber 10 and the cathode space 8, separated by a semipermeable membrane 12. When supplied electrolysis of water occurs on the anode 11 and the voltage cathode 9, while catholyte accumulates in the cathode space 8, and anolyte accumulates in the anode space 10. When the pH values of the anolyte and catholyte are reached, the electric circuit automatically opens.

 Example.

To obtain activated water used the above installation, a diagram of which is shown in the drawing. The electrodes were plates made of "food" stainless steel grade X18H10T. The membrane was prepared by impregnating the porous support with a solution containing, by weight, 10 nitrocellulose, 45 diethyl ether and 45 hexane. The impregnated membrane was kept in air for 2 hours at room temperature, then washed with water and dried for 5 hours. 1.5 l of tap water was poured into the source water tank, which, after purification and magnetization, entered the electrolysis tank. The electrolysis was carried out at a current density of 1 mA / cm ² for 2 hours. The result was 0.2 l of anolyte with a pH of 3.3 and 1.3 l of catholyte with a pH of 9.7. Anolyte and catholyte were poured into separate containers. Their properties (and pH) were maintained for 50 days.

 Some examples of the use of the resulting catholyte and anolyte are given below.

 For complete disinfection and sterilization, the objects were moistened with anolyte and dried.

 The cut in the patient’s hand was washed with the obtained anolyte, then tied with a bandage dampened with catholyte, and the dressing was left to dry. The last procedure was repeated 2-3 times throughout the day. The cut healed in a short period of time without leaving a trace.

 To treat burns, the affected areas were moistened with anolyte, and after 5 minutes with catholyte. Over the next 2-3 days, the affected area was moistened only with anolyte. The burns healed without leaving scars.

 For the treatment of lichen and eczema for 3-5 days in the morning, the affected areas were wetted first with anolyte, and after 10-15 minutes with catholyte. Deprive eczema disappeared without a trace.

 Purulent wounds were washed with anolyte, after 3-5 minutes - with catholyte. Then during the day 5-6 times the wound was washed only with catholyte. The wound from the anolyte “dried up”, under the influence of catholyte, scabs fell off and tissue regeneration occurred.

 To remove dead skin (corns) from the feet, they were steamed in soapy water and washed in warm water. Then, without wiping, they moistened their feet in a heated anolyte and, rubbing their hands with areas of dead skin, removed it. The feet were washed in heated catholyte and wiped dry. Dead skin, corns disappeared on the third or fifth day.

 For hygiene, in the morning and in the evening after washing, the face was first rinsed with anolyte, and then with catholyte. The face turned white, acne disappeared.

 To get rid of the unpleasant odor, the feet were washed with warm water, moistened with anolyte, and after 10 minutes with catholyte. Shoes inside were wiped with anolyte and dried. Socks were wetted with anolyte and also dried. The procedure was repeated for 2-3 days.

 With toothache, rinse your mouth for 5-10 minutes with anolyte. The pain went away.

 For the treatment of hemorrhoids, cracks were regularly washed with anolyte for 2-3 days after defecation, then tampons moistened with catholyte were applied, changing them as they dried.

 It should be noted that the above examples do not exhaust all possible cases of using the invention, which can also be used in the treatment of various internal diseases of humans and animals, as well as in agricultural work.

Claims (7)

 1. Installation for water treatment, containing a permanent magnet, a water treatment unit and an electrolysis tank, comprising a semi-permeable membrane separating the anode and cathode connected to an electric current source, and equipped with means for opening the electric circuit, characterized in that the cleaning unit is located in front of a capacitance for electrolysis, an annular ferromagnet is installed at the input to the latter, an electrode of pure graphite or stainless steel is used as an anode, an electrode of titanium or stainless is used as a cathode steel, and the membrane was obtained by impregnating a porous or woven base with a solution of nitrocellulose in an organic solvent or a mixture of organic solvents, followed by exposure to air, washing and drying.  2. Installation according to claim 1, characterized in that the semipermeable membrane is obtained by impregnating the porous base with a solution of nitrocellulose in a mixture of diethyl ether and hexane.  3. Installation according to claim 1 or 2, characterized in that the solution for the impregnation of a woven or porous base of a semipermeable membrane contains, by weight. h.: 10 - 20 nitrocellulose, 20 - 70 diethyl ether, 70 - 20 hexane.  4. Installation according to any one of paragraphs.1 and 2, characterized in that for the manufacture of electrodes used ultrapure graphite, titanium or stainless steel grade X18H10T.  5. Installation according to any one of claims 1 to 4, characterized in that the water treatment unit includes a pre-filter, high-quality activated carbon and ion-exchange resin.  6. Installation according to any one of claims 1 to 5, characterized in that tap water is used as the source water, and the pH values of the obtained anolyte and catholyte are respectively 3 - 3.3 and 9.6 - 9.8.  7. Installation according to any one of paragraphs.1 to 6, characterized in that it contains a housing made of two parts, the upper of which includes a container for source water, a replaceable cartridge containing a pre-filter, high-quality activated carbon and ion-exchange resin, and detachable an annular ferromagnet located in the area between the two parts of the housing around the input to the lower part, which is a capacitance for electrolysis, including the cathode space in which the cathode is made of titanium or stainless steel ali, and the anode chamber with an anode made of pure graphite or stainless steel, separated from the cathode space using a semipermeable membrane obtained by impregnating a porous or woven base with a solution of nitrocellulose in an organic solvent or a mixture of organic solvents, followed by exposure to air, washing and drying, wherein the anode and cathode are connected to an electric current source and the device is equipped with means for manually and automatically opening the circuit.