RU199520U1 - Device for preparing hydrogen-rich water - Google Patents

Abstract

The invention relates to the field of water enrichment with hydrogen to impart antioxidant properties to water, which is achieved due to the interaction of water having a negative redox potential with oxidative radicals that are formed in the body under adverse conditions, for example, when the body is exposed to ionizing radiation. The device for preparing hydrogen-rich water contains a container for preparing hydrogenated water, a line for supplying water and removing hydrogenated water to a consumer and a hydrogen generation unit, which consists of a container with demineralized water, a hydrogen generator and a control unit equipped with a pressure sensor, while a container for preparing hydrogenated water water contains a hydrogenation catalyst and is connected through a check valve and a container with demineralized water to a hydrogen generator, which is connected by a line for supplying demineralized water to it with a container with demineralized water, while a pressure sensor is installed in the hydrogen generator, the means for disconnecting the hydrogen generator is made in the form of an electric a switch installed on the electric current supply line to the hydrogen generator, and a hydrogen accumulator is connected to the container with demineralized water through a shut-off valve controlled by the control unit. The result is an increase in the reliability and stability of the hydrogen supply in the production of hydrogen-saturated water.

Description

Device for the preparation of hydrogen-rich water.

The utility model relates to the field of water enrichment with hydrogen to impart antioxidant properties to water, which is achieved through the interaction of water having a negative redox potential with oxidative radicals that are formed in the body under unfavorable conditions, for example, when the body is exposed to ionizing radiation.

A device for enriching water with hydrogen is known, which contains a clean water tank, a circulation pump and an electrolyzer consisting of insulating membranes and an insulating chamber, water inlet and outlet, a circulation pump and an electrolyzer are connected in series and form a circulation circuit equipped with a block, as well as electromagnetic valves or control valves (see utility model CN No. 20823459, class C25B 1/10, published on 12/14/2018).

However, oxidizing agents, in particular ozone, hydrogen peroxide, oxygen, obtained in this installation in the obtained hydrogen-saturated water, are not removed, and ozone and hydrogen peroxide can appear in water when ozone is used during water disinfection, which reduces the quality of the obtained hydrogen-enriched water.

The closest to the utility model in terms of the technical essence and the achieved result is a device for enriching water with hydrogen, containing a container for preparing hydrogenated water, a pipeline for supplying water and removing hydrogenated water to a consumer, and a hydrogen generation unit, which consists of a container with demineralized water, a hydrogen generator and equipped with a pressure sensor of the control unit, while the container for the preparation of hydrogenated water contains a hydrogenation catalyst and is connected through a check valve and a container with demineralized water to a hydrogen generator, which is connected by a line for supplying demineralized water to a container with demineralized water (see patent RU No. 2620802, class C02F 9/04, publ. 05/29/2017).

This device for saturating water with antioxidant hydrogen and creating its negative redox potential allows obtaining hydrogen-saturated water in the absence of the possibility of creating genotoxic activity in the water, removing all oxidants from the water, leading to a decrease in the antioxidant properties of water and - the absence of the potential for changing the pH of drinking water. water.

However, in this device, the hydrogen generator is equipped with means for shutting off the hydrogen generator when the hydrogen pressure in it is exceeded. In addition, in the event of a power outage, the supply of hydrogen is cut off, which prevents the continued use of the installation. Thus, the possibilities of using the device described above are limited, especially in places with an unstable supply of electricity, which occurs, for example, in rural areas and in various kinds of summer cottage associations.

The technical problem solved in this useful model is the elimination of the shortcomings identified in the known technical solutions.

The technical result achieved in this utility model is to increase the reliability and stability of the hydrogen supply when obtaining hydrogen-saturated water.

This problem is solved, and the technical result is achieved due to the fact that the device for preparing hydrogen-rich water contains a container for preparing hydrogenated water, a line for supplying water and removing hydrogenated water to a consumer, and a hydrogen generation unit, which consists of a container with demineralized water, a hydrogen generator and a control unit equipped with a pressure sensor, while the container for preparing hydrogenated water contains a hydrogenation catalyst and is connected through a check valve and a container with demineralized water to a hydrogen generator, which is connected by a line for supplying demineralized water to it with a container with demineralized water, while a pressure sensor is installed in the hydrogen generator, the means for disconnecting the hydrogen generator is made in the form of an electric switch installed on the electric current supply line to the hydrogen generator, and is connected to the tank with demineralized water through a shut-off valve controlled by the control unit. hydrogen simulator.

Preferably, the hydrogen generator is in the form of a solid polymer electrolyzer.

In the course of the study, it was revealed the possibility of ensuring the stable and reliable operation of the device for enriching water with hydrogen by installing a pressure sensor directly in the hydrogen generator, performing a means for disconnecting the hydrogen generator in the form of an electric switch installed on the electric current supply line to the hydrogen generator and connecting a container with a demineralized water through the hydrogen accumulator controlled by the control unit. Thus, in the event of an unstable supply of electricity, which will lead to unstable operation of the electrolyzer, in the event of an unexpected power outage or in case of an unexpected malfunction of the electrolyzer, the latter is turned off and the supply of hydrogen will continue from the hydrogen accumulator. Parallel operation of the hydrogen accumulator and the electrolyzer is also possible, which will allow stably and in the required quantities to supply hydrogen for saturation or enrichment of the water supplied to the consumer.

Depending on the consumer, for example, water for technical needs, in particular for irrigating plants, or for creating drinking water, it is possible to use various hydrogen accumulators, in particular based on intermetallic compounds, for example LaNi ₅ , or a hydrogen accumulator can be made in the form of a vessel, which filled with microspheres, for example hollow microspheres made of materials permeable to hydrogen, or filled with bundles of micro (nano) capillaries, for example glass, and the hydrogen generator can be made in the form of a solid polymer electrolyzer.

The drawing shows a schematic diagram of a device for enriching water with hydrogen.

The device for preparing hydrogen-enriched water contains a container 1 for preparing hydrogen-enriched water, a line 2 for supplying water and removing hydrogenated water to a consumer and a hydrogen generation unit 3, which consists of a container with demineralized water 4, a hydrogen generator 5 and a control unit equipped with a pressure sensor 6 7.

The container 1 for the preparation of hydrogenated water contains a hydrogenation catalyst and is connected through a check valve 8 and a container with demineralized water 4 with a hydrogen generator 5, which is connected by a line 9 for supplying demineralized water to it with a container with demineralized water 4.

The pressure sensor 6 is installed in the hydrogen generator 5. The device for disconnecting the hydrogen generator 5 is made in the form of an electric switch 10 installed on the line 11 for supplying electric current to the hydrogen generator 5, and the battery is connected to the tank with demineralized water 4 through a shut-off valve 12 controlled by the control unit 7 hydrogen 13.

The hydrogen generator 5 is made in the form of a solid polymer electrolyzer.

Hydrogen Battery 13 is designed as a receptacle which is filled with an intermetallic compound such as LaNi _5/4 or is formed as a vessel which is filled microspheres, for instance hollow microspheres made of hydrogen permeable material or filled with tufts of micro (nano) capillaries e.g. glass ...

Water from the water supply network with a pressure exceeding the hydrogen pressure in the hydrogen generation unit 3 enters the tank 1 for the preparation of hydrogen-enriched water and from the latter to the consumer of hydrogen-enriched water.

Due to the pressure drop, the check valve 8 separating the hydrogen generation unit 3 from the tank 1 for preparing hydrogen-enriched water is closed. When you open the tap through which the hydrogen-enriched water from the line 2 enters the consumer, the water pressure in the tank 1 for preparing hydrogen-enriched water decreases and check valve valve 8 opens under the action of hydrogen pressure created by the hydrogen generator, which leads to the flow of hydrogen into the vessel 1 for the preparation of hydrogen-enriched water and enrichment of the water supplied to the consumer with hydrogen.

If the pressure sensor 6 detects an increase in the hydrogen pressure in the hydrogen generator 5 above the set limit, the control unit 7 with the help of the electric switch 11 turns off the hydrogen generator 5 until the pressure in it falls below the set limit value. At the same time, the control unit opens the shut-off valve 12 and hydrogen begins to flow into the container 1 for the preparation of hydrogen-rich water from the hydrogen accumulator 13, which ensures the continuous and stable operation of the installation. Similarly, the hydrogen accumulator 13 supplies hydrogen to the container 1 for preparing hydrogen-enriched water in the case when, for some reason, the hydrogen generator 5 does not supply hydrogen at the required pressure.

After turning on the hydrogen generator 5 in operation by simultaneously supplying hydrogen to the container 1 for the preparation of hydrogen-rich water, hydrogen is supplied to the hydrogen accumulator 13 to replenish it with hydrogen.

The above-described device can be built into the city water supply network and into any other autonomous water supply system, which ensures the stable receipt and supply of hydrogen-enriched water to the consumer.

Claims (4)

1. A device for the preparation of hydrogen-rich water, containing a container for the preparation of hydrogenated water, a line for supplying water and removing hydrogenated water to the consumer and a hydrogen generation unit, which consists of a container with demineralized water, a hydrogen generator and a control unit equipped with a pressure sensor, while the container for the preparation of hydrogenated water contains a hydrogenation catalyst and is connected through a check valve and a container with demineralized water to a hydrogen generator, which is connected by a line for supplying demineralized water to a container with demineralized water, characterized in that the pressure sensor is installed in the hydrogen generator, means for disconnecting the generator hydrogen is made in the form of an electric switch installed on the line for supplying electric current to the hydrogen generator, and a hydrogen accumulator is connected to the container with demineralized water through a shut-off valve controlled by the control unit. 2. The device according to claim 1, characterized in that the hydrogen generator is made in the form of a solid polymer electrolyzer. 3. A device according to claim 1, characterized in that the hydrogen accumulator is made in the form of a vessel filled with an intermetallic compound. 4. A device according to claim 1, characterized in that the hydrogen accumulator is made in the form of a vessel filled with microspheres, for example, hollow microspheres made of materials permeable to hydrogen, or filled with bundles of micro (nano) capillaries, for example glass.

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