WO2019160450A2 - Device for ozonizing and oxidizing water of an aquaculture pool - Google Patents

Abstract

The utility model relates to the field of aquatic animal cultivation, specifically to devices for processing water in aquaculture tanks. The problem addressed by the claimed utility model is that of increasing the effectiveness of saturating water with oxygen while simultaneously sterilizing water and oxidizing organic impurities. This technical result is achieved by producing a device for ozonizing and oxygenating water of an aquaculture tank, including a hydraulic lock designed as a pipe within a pipe, differing from known technical solutions in that a Venturi injector for introducing an ozone-oxygen mixture is arranged upstream of the hydraulic lock, the hydraulic lock being in the form of at least one section which is 0.05-4 m high, wherein the housings of the Venturi injector and the hydraulic lock are hermetically sealed.

Description

 Pool water ozonation and oxygenation device

 aquaculture

 Technical field

 The utility model relates to the field of breeding aquatic animals, namely, devices for treating water in aquaculture tanks.

State of the art

Currently, there are many devices for treating water of pools for growing aquaculture, in particular devices for ozonation and oxygenation. For ozonation, the use of ozone generators is most effective [1]. To saturate water with oxygen - oxygenation, it is most effective to use plants operating on the principle of dissolving oxygen in water under pressure (international application WO2010077962). Also known

sequential placement of ozonation and oxygenation devices for disinfecting water and saturating it with oxygen in a closed water supply (UZV) for the reproduction and cultivation of hydrobionts. In this case, ozonation is carried out using an ozonizer, and oxygen saturation using an oxygen cone [2]. The disadvantages of the above devices are low

efficiency of use of ozone, oxygen and relatively high energy consumption. The closest set of essential features to the claimed utility model is a device for saturating water with oxygen - an oxygenation tube, which is a water seal designed as a pipe in a pipe [3, 4]. This device is convenient in operation, but has a low efficiency for saturation of water with oxygen, which in this method varies from 10 to 52%. With this device, it is impossible to sterilize water, and also to oxidize organic residues. If an ozone-oxygen mixture is used in such a device, ozone destruction does not occur, which is extremely dangerous, since there is an excess of ozone

 5 may adversely affect the health of farmed facilities

 aquaculture, and with a low concentration of ozone, the efficiency of its use does not exceed 10%.

The problem to be solved and the technical result achieved

The solved problem of the claimed utility model is to eliminate the disadvantages of the above technical solution and

 achievement of a technical result in relation to:

 - increase the efficiency of saturation of water with oxygen (oxygenation),

- water sterilization and organic oxidation

 impurities.

15

 Disclosure of invention

The achievement of the specified technical result in the claimed utility model is achieved through the implementation of a device for ozonation and oxygenation of the water of the aquaculture basin, including 20 water seal, executed as a pipe in a pipe, different from

 well-known technical solutions in that in front of a water seal

 a Venturi injector for introducing an ozone-oxygen mixture is located, the water trap is made in the form of at least one section 0.05-4 m high, while the Venturi injector body and water trap

25 airtight and fair ratio

 F = iVi = (20-40) Q, where

Vi, m ³ - the working volume of the valve section,

 i - section number of the hydraulic lock,

 p is the number of sections of the hydraulic lock,

Zo Q, m ³ / s - water consumption. The combination of two known devices - a water trap and a Venturi injector - into one, allows to achieve a synergistic effect: a significant increase in the effect of dissolution of the ozone-oxygen mixture, which reaches 150-200% in dynamic mode at the outlet of the device, as well as high

the effectiveness of water sterilization and oxidation of residual organic residues after filtration. It must be borne in mind that the actual value of the oxygen _{concentration} dissolved in water in aquaculture basins with objects below 100% because when mixing water oversaturated with oxygen after the device, with water in a pool with aquaculture, water is mixed with different concentrations of dissolved oxygen. A Venturi injector (injector) is placed in front of the water seal. In practice, such placement is carried out by performing an injector in front of the inner water seal pipe, which is pressure (the internal pressure pipe of the water seal). This arrangement of the injector allows the additional use of oxygen released during the decomposition of ozone. Airtight

the execution of the entire device contributes to the most complete

dissolution of oxygen in water, since the process of dissolution of oxygen is carried out under pressure, adjustable

water seal. The height of the water column of the hydraulic lock allows

regulate this pressure and, therefore, the degree of saturation of water with oxygen. The water lock can be made in the form of one or many sections, which allows you to adjust its working volume.

The latter affects the transit time of ozonized water to the aquaculture pool, which allows you to adjust the amount of residual ozone. Under the working volume of the section of the hydraulic lock is understood the volume of water in the section in working condition. Sections

hydraulic locks can be performed both sequentially one after another, each in a sealed enclosure, and all in one sealed enclosure. The design of the sections depends on

technological or structural circumstances of the device at the enterprise. The volume / volume of sections the hydraulic lock is selected based on the relation S = _i ^{nί =} (20-40) Q, where

Vi, m ³ - the working volume of the valve section,

 i - section number of the hydraulic lock,

 p is the number of sections of the hydraulic lock,

Q, m ³ / s - water flow.

 The range of values is determined empirically. At lower values of the indicated interval, the amount of residual ozone is higher than the permissible level - more than 0.15 mg / l. Values (20-40) Q allow you to achieve an acceptable amount of residual ozone.

In many cases, it is advisable to directly place the Venturi injector in front of the water seal, which contributes to the process of oxygenation of the water. At the same time, depending on the structural need, the injector can be located both along the same axis of symmetry with a water seal, and at an angle to it. To increase the degree of oxygenation, the pipe / sluice trap can have a variable cross-sectional area. Materials for the manufacture of parts and the housing of the device are polymeric materials or stainless steels.

The inventive utility model is a technical solution, because represents a solution to the problem of achieving the claimed technical result by creating a device consisting of structural elements technologically and structurally interconnected. Moreover, the set of essential features of this utility model - a system of devices is united by a single creative concept. Parts (elements) of the device are in constructive unity and functional relationship, and their joint

use leads to the creation of a new device with a new purpose and function - a device for ozonation and oxygenation of water in an aquaculture basin.

This technical solution is industrially applicable in the field of aquaculture cultivation and is applicable as a device sterilization and oxygenation of water for the aquaculture pool.

The use and use of the inventive device does not cause any difficulties and can be carried out by specialists with appropriate training. When implementing the system

used devices, devices and materials manufactured

industry and are in open sale. Methods for implementing the utility model are methods of machining metal and plastics, electric welding and thermal welding of plastics, metalwork, installation, and construction work.

The means of implementation are mechanical means, machine tool equipment and manual machining tools, welding equipment, construction equipment and machinery.

The above set of essential features

of the claimed utility model and their disclosure allows us to conclude that the claimed technical result is achieved, namely the achievement of the following technical advantages compared to the prototype:

 1. Improving the efficiency of oxygenation.

 The implementation of oxygenation of water under pressure and the simultaneous use of additional oxygen generated during the decomposition of ozone can achieve an oxygen content of 150-200% in water. While the prototype method can saturate water with oxygen only up to 90% -98%.

 2. The sterilization of water and the oxidation of organic impurities.

 The inventive device also allows simultaneous with the oxygenation of water to carry out its sterilization and oxidation of organic residues remaining in the water after filtration. In this case, the water treated in the device contains nitrate ions (NO3) in an amount of 0.005-0.010 mg / l, while after processing in known ozonation devices, 0.3-0.5 mg / l of nitrate ions remain in the water.

3. The amount of residual ozone in the water after treatment in the device is 0.10-0.12 mg / L or less, while after treatment in the known ozonation devices, 0.15-0.20 mg / L remains in the water and more.

 Distinctive from the prototype, the essential features of the claimed utility model or their characteristics are:

 - a venturi injector is located in front of the water trap for introducing the ozone-oxygen mixture,

 - water seal is made in the form of at least one section with a height of 0.05-4 m,

 - the body of the venturi injector and the water seal are sealed,

- the working volume of the hydraulic lock and the water flow rate are related by the ratio

 where

Vi, m ³ - the working volume of the valve section,

 i - section number of the hydraulic lock,

 p is the number of sections of the hydraulic lock,

Q, m ³ / s - water flow.

 These significant features are distinctive from the prototype, because each of them is not contained in the aggregate

essential features of the prototype, i.e. not present in the list of signs implemented in the prototype and is not their

characteristic.

As already shown above, these essential features distinctive from the prototype, including their characteristics, ensure the achievement of the claimed technical result when using other essential features of the utility model specified in the description.

Thus, it is shown that the set of essential features of the claimed utility model, which allows to achieve the claimed technical result, differs from the set of essential features of analogues, prototype, as well as other known data sources, i.e. it is not known the use of this combination of essential features with the receipt of the claimed technical result. In other words, the claimed utility model is not known from the prior art. The effectiveness of the claimed technical result is achieved in the following modifications of the method, characterizing special cases of its implementation:

1. The claimed and described above device of ozonation and 5 oxygenation of water of the aquaculture basin, characterized in that the Venturi injector and each section of the water seal are made in their own sealed enclosure and are tightly interconnected.

2. The claimed and described above device for ozonation and oxygenation of water in an aquaculture basin, characterized in that the internal pressure head pipe of the water seal has a variable cross-sectional area.

3. The claimed and described above device for ozonation and oxygenation of the water of the aquaculture basin, characterized in that

15 venturi injector located directly in front of

 water seal along one axis of symmetry.

4. The claimed and described above device for ozonation and oxygenation of water in an aquaculture basin, characterized in that the Venturi injector is located so that its axis of symmetry

 20 forms an angle with the axis of symmetry of the valve.

Brief Description of the Drawings

 The description of the claimed method is illustrated in the diagram, which shows the following notation:

 25 1 - venturi injector,

 2 - device housing,

 3 - internal pressure pipe of the hydraulic seal,

 4 - inlet (inlet fitting) of water,

 5 - tube supply ozone-oxygen mixture,

Zo 6 - output (outlet fitting) oxygen-enriched water. Embodiments of the invention

 Pool water ozonation and oxygenation device

aquaculture is as follows. A Venturi injector 1 and an internal water seal (s) are installed (a gas seal pipe) 3. The Venturi injector contains a pipe for supplying an ozone-ozone mixture 5. Then a Venturi injector and an internal pressure pipe are installed and placed in a sealed enclosure 2. At the inlet the injector and in the upper part of the body perform hermetically made fittings, respectively, of the inlet 4 and the outlet 6 of water. The water lock of the device can be made in the form of one or a number of sections. The device can be placed in one or in several buildings. The injector can be made both on the same axis as the internal pressure pipe of the hydraulic lock, and at an angle to it.

The internal pressure seal pipe may have a variable cross-sectional area.

 Example 1

 From the polypropylene pipe, an internal pressure head pipe of a water seal with a diameter of 350 mm and a height of 1 m is made. A Venturi injector also made of

polypropylene. Combined devices are placed in a hermetically sealed housing, on one side of which an outlet fitting for oxygen-enriched water is provided at the top. At the inlet to the injector, a water inlet fitting is provided.

At the entrance of the manufactured device serves water with a flow rate of 10 m ³ / hour. This water contains 7 mg / l of oxygen and has a concentration of NO ₃ in an amount of 0.3 mg / l. An ozone-oxygen mixture of the following composition is supplied to the Venturi injector: ozone - 10%, oxygen - 90% with a flow rate of 100 g / h. At the outlet of the device, the treated water has the following characteristics: O ₂ content - 14.5 mg / L, NO ₃ content - 0.01 mg / L.

 Example 2

 From a stainless pipe with a diameter of 200 mm of grade 12X18H10T

make the internal pressure pipe of the first section of the hydraulic seal 4 m high. Internal pressure pipes are also manufactured.

hydraulic locks for 2, 3 and 4 sections, each 1 m high. Each internal pressure pipe is placed in an individual sealed housing and tightly connected to each other. The output of each section is connected to the entrance to the injector of the next section.

At the entrance of the manufactured device serves water with a flow rate of 100 m ³ / hour. This water contains 5 mg / l of oxygen, has a content of N0 ₃

- in an amount of 0.5 mg / l. An ozone-oxygen mixture of the composition: O ₃ + O ₂ (1: 10) with a flow rate of 1200 g / h is supplied to the Venturi injector. At the outlet of the device, the treated water has the following characteristics:

the content of O ₂ is 16.5 mg / l, the content of NO ₃ is 0.005 mg / l.

 The above examples should not be construed as limiting the scope of the utility model. On the contrary, options, modifications and equivalents of the described examples are also possible within the scope of the rights set forth in the utility model formula.

Industrial applicability of the invention and the achievement of the technical result

The inventive utility model is a technical solution, because represents a solution to the problem of achieving the claimed technical result by creating a device consisting of structural elements technologically and structurally interconnected. Moreover, the set of essential features of this utility model - a system of devices is united by a single creative concept. Parts (elements) of the device are in constructive unity and functional relationship, and their joint

use leads to the creation of a new device with a new purpose and function - a device for ozonation and oxygenation of water in an aquaculture basin.

This technical solution is industrially applicable in the field of aquaculture cultivation and is applicable as a device for sterilizing and oxygenating water for an aquaculture pool. The use and use of the inventive device does not cause any difficulties and can be carried out by specialists with appropriate training. When implementing the system

used devices, devices and materials manufactured

industry and are in open sale. Methods for implementing the utility model are methods of machining metal and plastics, electric welding and thermal welding of plastics, metalwork, installation, and construction work.

The means of implementation are mechanical means, machine tool equipment and manual machining tools, welding equipment, construction equipment and machinery.

The above set of essential features

of the claimed utility model and their disclosure allows us to conclude that the claimed technical result is achieved, namely the achievement of the following technical advantages compared to the prototype:

 1. Improving the efficiency of oxygenation.

 The implementation of oxygenation of water under pressure and the simultaneous use of additional oxygen generated during the decomposition of ozone can achieve an oxygen content of 150-200% in water. While the prototype method can saturate water with oxygen only up to 90% -98%.

 2. The sterilization of water and the oxidation of organic impurities.

The inventive device also allows simultaneous with the oxygenation of water to carry out its sterilization and oxidation of organic residues remaining in the water after filtration. In this case, the water treated in the device contains nitrate ions (NO ₃ ) in an amount of 0.005-0.010 mg / l, while after processing in known ozonation devices, 0.3-0.5 mg / l of nitrate ions remain in the water.

3. The amount of residual ozone in water after treatment in the device is 0.10-0.12 mg / L or less, while after treatment in known ozonation devices, 0.15-0.20 mg / L or more remains in water . The above description of the invention and examples of its implementation confirm the achievement of the claimed technical result in the process of carrying out the invention. They also show a causal relationship of essential features between themselves and the achieved technical result.

From the above description also follows that the achievement of a technical result is possible only when implementing the entire set of essential features, which also confirms the technical solution to the problem of carrying out the invention.

Bibliography

1. Ozonation of water in the ultrasound [Electronic resource]. - mode

 Access: http: //aquavitro.orq/2017/06/21/ozonirovanie-vodv-v-uzv/ (accessed 02.16.2018).

 2. Installations of Closed Water Supply. Technology. Site of the company "SIMEON AquaBioTechnologies" [Electronic resource]. - Access mode: http://www.simeon-aquabio.ru/base znanv / uzv sov / (accessed February 16, 2018).

 3. Tube for oxygenation [Electronic resource]. - Access mode: http://basservo.ru/obzor-oksigenatorov-dlya-uzv/ (accessed February 16, 2018).

 4. Saturation of water with oxygen. U-shaped pipe for aeration.

 [Electronic resource]. - Access mode:

 http://aquavitro.org/2013/06/17/nasvshhenie-vodv-kislorodom/ (accessed 02.02.2019).

Claims

 Claim

Item 1. A device for ozonation and oxygenation of water in an aquaculture basin, including a water seal designed as a pipe in 5 pipes, characterized in that a Venturi injector for introducing the ozone-oxygen mixture is located in front of the water seal, and the water seal is made in the form of at least one section with a height of 0 , 05-4 m, while the body of the venturi injector and the water seal are sealed and the ratio

Where

Vi, m ³ - the working volume of the valve section,

 i - section number of the hydraulic lock,

 p is the number of sections of the hydraulic lock,

Q, m ³ / s - water flow.

15 Clause 2. The device for ozonation and oxygenation of water in the aquaculture basin according to claim 1, characterized in that the Venturi injector and each section of the water seal are made in their own sealed enclosure and are tightly interconnected.

Item 3. The device for ozonation and oxygenation of the water of the aquaculture basin 20 according to claim 1, characterized in that the internal pressure pipe of the hydraulic seal has a variable cross-sectional area.

Item 4. The device for ozonation and oxygenation of water in the aquaculture basin according to claim 1, characterized in that the Venturi injector 25 is located directly in front of the water seal along one axis of symmetry.

Item 5. The device for ozonation and oxygenation of water in the aquaculture basin according to claim 1, characterized in that the Venturi injector is located so that its axis of symmetry forms an angle with the axis of symmetry of the hydraulic seal.