SU1183029A1 - Arrangement for keeping water organisms - Google Patents

Description

The invention relates to breeding kator. This greatly complicates

and the cultivation of living organisms living in the aquatic environment, in particular, to devices for keeping aquatic organisms, and can be used in cargo 5 fish farming for growing fish.

It is known a device for keeping aquatic organisms - fish, containing tanks for fish, equipped with 10 bubblers - ceramic sprays and an atmospheric air supply system connected to the bubblers, while the tanks are connected in series with each other so that the aerated water can move from one tanks, another 03 ·

This device does not provide a high concentration of oxygen dissolved in water. Also on the ^n, pres-20 Corollary iron compounds in water is depressing · on the life of fish, so these factors reduce the yield of fry eggs and reduce their viability. 25

When growing in this device, fish in need of increased oxygen content, such as trout, fish loss reaches 30%.

It is also known a device for the co-βθ holding of living organisms, containing a container for living organisms, equipped with bubblers, communicated with the latter an oxygen source [2].

However, the device is difficult to maintain, since the overwhelming majority of commercial farms is significantly removed from businesses that produce oxygen, so the impossibility uninterrupted transport bol- ₄₀ shogo number of oxygen cylinders, hinders introduction of the device.

The closest to the invention is a device for the maintenance of aquatic organisms, containing a tank for placing aquatic organisms, equipped with bubblers, an aerator and a source of oxygen, the discharge pipe of which has two branches, one of which is connected to the aerator, and the other to the bubblers of the SP3}.

However, the proposed device can work effectively only with the presence of an oxygen source, in which 55 cylinders with compressed oxygen are used, or a vessel with liquid oxygen and gas engineering services for the device, increases the operating costs of transporting oxygen and makes the device dependent on the presence of oxygen.

In the case of using atmospheric air, it is impossible to achieve a high density of planting of living organisms in the tank due to the low content of O2 in the water, and when atmospheric air is supplied to the aquatic environment, harmful microorganisms enter the water environment that inhibit living aquatic organisms in tanks and worsen their living conditions .

The purpose of the invention is to improve the living conditions of the organisms and simplify maintenance.

This goal is achieved by the fact that the device contains a tank for placing aquatic organisms, equipped with bubblers, an aerator and a source of oxygen, the discharge pipe of which has branches, one of which is connected to the aerator and the other to the bubblers, the source of oxygen is a membrane gas separation apparatus, equipped with a fan and a pump, and in the tank for placing aquatic organisms confusers are placed to trap unused air enriched with water vapor, connected pipes line with submembrane cavity of the membrane apparatus.

The drawing shows a device for the maintenance of aquatic organisms, a General view.

The device contains a tank 1 for aquatic organisms, equipped with bubblers 2, an aerator 3 for pre-aerating water, connected to tank 1 with pipeline 4, an oxygen source, which is a membrane gas separation apparatus consisting of a set of membrane elements 5 enclosed in a housing 6 of fan 7 for supplying air in the numbing space 8 of the apparatus, and a vacuum pump 9 connected to the submembrane cavity 10 of the membrane apparatus, pipe 11, while the discharge pipe 12 of the vacuum pump 9 has branching 13 and 14, perz 1183029

New of which is connected to barbarter 2, and the other with aerator 3.

In addition, in the tank 1 are installed confusers for trapping air enriched with water vapor - ₅ , which are connected to the submembrane cavity 10 of the apparatus via a pipe 16 with a valve 17.

For the manufacture of membrane elements 5, a highly permeable membrane is used, which provides air enriched with oxygen up to 40%.

The device works as follows. 15

. The fan 7 and vacuum pump 9 are turned on. Atmospheric air is blown under membrane elements 5, and part of the flow is pumped out through membrane elements 5 with a vacuum pump 9, enriching it with oxygen to 35–40% and cleaning the air completely from harmful microorganisms. The air enriched with oxygen and purified from harmful microorganisms is sent to 25 aerator 3 and to bubblers 2 containers 1.

Water is simultaneously supplied to the aerator 3 to saturate it with oxygen. Non-penetrating through the membrane elements 5 air together with harmful ₃₀ microorganisms is released from the apparatus into the atmosphere.

The salts of bivalent iron present in water are oxidized by oxygen to the trivalent state.

The water is purified from the suspension of compounds of trivalent iron and is sent to the tank 1 for fish. The air released from the water tank 1, enriched with water vapor and oxygen, is directed through the pipeline 16, regulating its flow valve 17, in the submembrane cavity 10 of the device. Water vapor in the air stream is sorbed by the polymer membrane apparatus, causing some polymer swelling and microcrack seizure, and thereby further enhances the separation efficiency of atmospheric air 50

into the apparatus, and cleaning it from harmful microorganisms contained in the original air.

The interrelation between confuser 15 and the submembrane cavity 55 10 of the membrane apparatus makes it possible to obtain an unexpected effect of water vapor on the hydrophobic membrane of the apparatus, manifested in an increase in the concentration of the air to be separated with oxygen.

The table shows the concentration of oxygen in the enriched 0 ^ air for different membrane samples, respectively, for humid and not humid air. All measurements were carried out under the same conditions: a temperature of 25 ° C and a pressure drop across the membrane of 0.8 at.

Membrane Concentration,%, 0 _? in the air product Not wetted Moisturized one 34.0 36.5 2 35.5 37.2 3 36.7 38.3 four 37.0  39.1 five 38.2 40.7

The data in the table show the manifestation of an unexpected effect realized in the device by interconnecting the confusors 15 of capacity 1 with the submembrane cavity of the 10 10 membrane apparatus.

In the apparatus, the molecules of oxygen and nitrogen penetrate through the intermolecular spaces of the polymer molecules of the membrane. The magnitude _of these gaps is 2-7 A. Since the size of harmful microorganisms is thousands of times larger than the size of intermolecular gaps, there is a complete purification of the penetrating air from microorganisms, which improves the living conditions of the fish.

Increasing the concentration of oxygen dissolved in water improves the viability of aquatic organisms, their survival and creates conditions for increasing the productivity of fish farming, for example, in the production of commercial fish.

The economic effect of the device with a furniture unit with a capacity of 12.5 m ³ / h for oxygen-enriched voduha is 1183029

em only during the incubation period of about 30,000 rubles. in year.

The proposed device is autonomous and reliable in operation. For his work

no oxygen required. It is extremely simple to maintain, which makes it possible to maintain

a fish farmer without special technical education.

Air

Claims (1)

A DEVICE FOR THE CONTENT OF WATER ORGANISMS, containing a container for placing aquatic organisms, equipped with bubblers, an aerator and an oxygen source, the discharge pipe of which has branches, one of which is connected to the aerator and the other to bubblers, characterized in that, in order to improve the living conditions of the organisms and simplify maintenance, the source of oxygen is a membrane gas separation apparatus, provided with a fan and a pump, and a tank for containing aquatic organisms has confusers for collecting unused _β air enriched water para- ® E connected Pipelines house submembrane cavity membrane unit. 51) „., 1183029 > 1 1183029 2