RU2709379C1 - Fish growing system and method of its operation - Google Patents

Abstract

FIELD: fishing and fish farming.

SUBSTANCE: complex includes at least one fish-breeding basin, drum filter, biological filter with quartz sand, biofilter with floating bio-loading, oxygenator and pumps. Distributing header is connected with drum filter, biofilters and oxygenator with possibility of water flow along directions: drum filter – collector – biofilter with quartz sand – drum filter, pool – drum filter – collector – oxygenator – pool, pool – drum filter – collector – biofilter with floating bio-loading – pool. Fish-breeding basin, the drum filter, biofilters and oxygenator are arranged at the same level. Fish-breeding basin is connected to the drum filter by the intake pipe located diagonally from the center of the fish-breeding basin to its upper edge through the skimmer located from the inside of the fish-breeding basin, which allows to receive water by two flows from the bottom through the pipe and overflow over the edge of the skimmer. Pipeline receiving water from fish-breeding basin is located on the external side of fish-breeding basin and is located below water level in fish-breeding basin, providing for water supply by gravity into drum filter, accumulating part of which is connected via pumps with distributing collector.

EFFECT: invention improves quality and efficiency of water treatment in a piscicultural system.

2 cl

Description

The invention relates to the fishing industry, namely to breeding freshwater fish species in closed water systems. In particular, the invention discloses a complex and method for preparing water for growing fish of various species, namely, its mechanical treatment, biological treatment and oxygenation.

The prior art is known, for example, an autonomous fish farming module and its operation method “AWS Sturgeon 3” -2016 (http://fish-agro.ru/modul3tonn.html), which contains fish tanks, a drum filter, an oxygenator, biofilters, Pumps fish farm includes a skimmer; The pipe receiving water from the fish tank is located on the outside of the fish tank and is below the water level in the fish tank.

However, the disadvantage of the known system is the lack of water purification in closed water supply systems, namely the lack of fine water filtration to remove suspended matter and dissolved contaminants and the need for underground utilities to ensure water exchange.

The task of the claimed invention is to eliminate the above drawback.

The technical result of the complex is to improve the quality and effectiveness of water treatment in the fish farm complex.

The technical result is achieved due to the fact that the fish growing complex contains at least one fish tank, a drum filter, a quartz sand biofilter, a floating biofilter biofilter, an oxygenator and pumps. In this case, the distribution collector is connected to a drum filter, biofilters and an oxygenator with the possibility of water flowing in the directions: drum filter - collector - biofilter with quartz sand - a drum filter; pool - drum filter - collector - oxygenator - pool; pool - drum filter - collector - biofilter with floating bio-loading - pool. At the same time, the fish tank, drum filter, biofilters and oxygenator are located on the same level. Moreover, the fish tank is connected to the drum filter by a sampling pipe located diagonally from the center of the fish tank to its upper edge through a skimmer located on the inside of the fish tank, allowing water to be received in two streams from the bottom through the pipe and overflow through the edge of the skimmer, and the receiving water from the fish tank basin the pipe is located on the outside of the fish tank and is below the water level in the fish tank, providing gravity flow of water into the drum filter, accumulate The bulk of which is connected via pumps to the distribution manifold.

The technical result of the method is to improve the quality and efficiency of water treatment in the fish farm complex.

The technical result is achieved in the method of operation of the fish growing complex by the fact that water is supplied from the center of the fish farm by bottom gravity to a drum filter, then water is pumped to a distribution manifold, where the flow is distributed to a silica sand biofilter, a floating biofilter and an oxygenator, moreover, after passing through a biofilter with quartz sand, water is returned to the drum filter, after passing through a biofilter with a floating bio-loading, water is returned to the fish tank, passing through oxygene The water sender returns to the fish tank, in which the rotation of the water is set due to the angle of inclination of the pipes supplying water from the biofilter with a floating bio-charge and oxygenator.

The fish farming complex is characterized by the following features.

The fish tank, drum filter, biofilter, biofilter with floating bio-loading and oxygenator are located on the same level.

The fish tank is round and water from it enters the drum filter by the bottom fence by gravity through the intake pipe diagonally from the center of the fish tank to its upper edge through a skimmer located on the inside of the fish tank allowing water to be received in two streams from the bottom through the pipe and overflow over the edge of the skimmer for removal of particles floating on the surface.

The pipe receiving water from the fish tank is located on the outside of the fish tank and is below the water level in the fish tank, which allows you to create a water level difference for its movement from the fish tank to the drum filter by gravity.

The drum filter housing is divided into two compartments - a compartment for receiving water from a fish tank and a storage compartment with a drum fitted with a stainless micron mesh. The intake pipe of the drum filter is located in the lower part of the water intake compartment and, as it is filled, water flows into the drum, fitted with a stainless micron mesh, passing through which it is drained to the bottom into the storage compartment. Particles stuck inside on a drum mesh covered with a stainless micron mesh are washed off with water supplied through high-pressure nozzles to a collecting chute and merged into a sand trap located on the outer wall of the drum filter.

Pumps take water from the storage part of the drum filter and feed it to the distribution manifold, and from it is distributed using shut-off valves to the biofilter, biofilter with a floating bio-charge and oxygenator.

Silica sand with a fraction of 0.1-0.63 is used as a biofuel in a biofilter. The water inlet into the biofilter is made in the center from the side. Water from the collector under pressure enters the biofilter through the receiving pipe located in the side of the biofilter and then into the truncated cone located at the bottom of the biofilter, passing through the gap between the lower edge of the truncated cone and the bottom of the biofilter body, the water rises, resulting in quartz sand, which the biofilter is filled from the cone at the bottom and to the upper level of the biofilter is in suspension.

In a biofilter with a floating bio-loading, water is supplied through a pipe under pressure to the lower part of the biofilter with a floating bio-loading, rises through the floating bio-loading in a static state and through a receiving pipe in the upper side of the biofilter with a floating bio-loading flows by gravity into the fish tank. Suspended particles and dissolved contaminants are retained in the bio-load located in the aforementioned biofilter, which allows for fine filtering of water.

The oxygenator is made in the form of a cone in the lower part connected to a cylindrical tank, which allows for maximum oxygen saturation of the water to use the shock force of the water coming through the upper part of the oxygenator and the distribution of oxygen pressure in the cone as the water moves from the upper part of the oxygenator to the bottom and the water exits through side holes in the lower part of the cone into a cylindrical tank and then through the pipes to enter the fish tank.

Additionally, ozone is supplied to the oxygen supply line to the oxygenator, which allows for antibacterial treatment of water. The complex works as follows.

Water through a pipe from the center of the fish farm by the bottom fence flows by gravity into the drum filter, where it passes through a drum fitted with a stainless mesh and flows downward into the drum filter housing. As a result, large particles larger than 50 microns are captured by a stainless micron grid. At the top of the drum covered with a stainless micron mesh, there are high-pressure nozzles through which water rinsing particles of more than 50 microns enters the tray located inside the drum fitted with a stainless micron mesh, along its entire length and further along the receiving pipe, are removed from the drum filter housing to sand trap and further down the drain. From the housing of the drum filter, purified water is supplied by two pumps to the distribution manifold, and from it is distributed using shut-off valves to a quartz sand biofilter, a floating biofilter biofilter and an oxygenator.

Water passing through the biofilter undergoes biological filtration and by gravity through the intake pipe located in the side of the upper edge of the biofilter enters the drum filter for re-cleaning.

As the bacteria that settle on quartz sand die off, the grains of sand become overgrown with organic matter, which gives the sand grains increased buoyancy, as a result of which the quartz sand, on which there is no more room for new bacteria to settle, is washed out of the biofilter and enters the drum filter where it is captured drum covered with stainless micron mesh and removed into the sand trap.

Passing through a quartz sand biofilter, water undergoes biological filtration and returns to the drum filter for re-treatment, water passing through a floating biofilter biofilter passes biological filtration and filtering from suspended particles less than 50 microns in size and returns to the fish tank, passing through the oxygenator water saturated with oxygen and returns to the fish tank.

Thus, in the claimed complex uses a multi-stage water filtration system:

- drum filter - mechanical filtration

- quartz sand biofilter - biological filtration

- Biofilter with floating bio-loading - Biological filtration and fine mechanical filtration.

- oxygenator - antibacterial treatment.

For heating water are not used any devices and appliances. Water is heated from atmospheric air in the room in which the Complex is installed. Adjustment of water temperature is carried out by the frequency of inclusion of nozzles in the drum filter using an electromagnetic valve and a timer. As a result, the Complex can be used to grow fish of various species.

The rotation of the water in the fish tank is determined by the angle of inclination of the pipes supplying water from the biofilter with floating bio-loading and oxygenator to the fish tank.

Due to the rotation of the water in the fish tank, contaminants are collected in the center, which allows the intake pipe to remove them from the fish tank.

Water from the biofilter with quartz sand does not enter the fish tank, but comes for re-treatment to a drum filter, which eliminates the ingress of organic matter and sand into the fish tank.

Water circulation is carried out not sequentially, but in three directions:

1) drum filter - collector - biofilter with quartz sand - drum filter

2) pool - drum filter - collector - oxygenator - pool

3) pool - drum filter - collector - biofilter with floating bio-loading - pool.

The point of intersection and mixing of water is a drum filter and a collector. All elements of the Complex: fish tank, drum filter, biofilter, biofilter with floating bio-loading, oxygenator are made of polypropylene. The complex occupies no more than 50 square meters. meters of area.

It does not require replenishment with new water, fish is grown in one water flooded at the launch of the Complex.

A drum fitted with a stainless micron grid is driven by a gear motor and rotates constantly, and high-pressure nozzles are switched on by a timer according to the cycle set by the operator.

Water undergoes an additional antibacterial treatment with ozone supplied to the oxygenator along with oxygen.

An oxygen concentrator is used to enrich water with oxygen.

In the event of an emergency stop of the Complex (power outage, pump failure, etc.), the water level in the pool and the drum filter is leveled and the emergency valves in the drum filter are closed, which helps prevent water loss in the Complex.

Claims (2)

1. Complex for growing fish, characterized in that it contains at least one fish tank, drum filter, biofilter with quartz sand, biofilter with floating bio-loading, oxygenator and pumps, while the distribution manifold is connected to a drum filter, biofilters and oxygenator with the possibility of water flowing in the directions: drum filter - collector - biofilter with quartz sand - drum filter, pool - drum filter - collector - oxygenator - pool, pool - drum filter - count vector - a biofilter with a floating bio-loading - a pool, while the fish tank, drum filter, biofilters and oxygenator are located at the same level, and the fish tank is connected to the drum filter with a suction pipe located diagonally from the center of the fish tank to its upper edge through a skimmer located on the inside of the fish tank, allowing water to be received in two streams from the bottom through the pipe and overflow over the edge of the skimmer, and the pipe receiving water from the fish tank is located with Shnei hatchery hand basin and is below the water level in the fish tanks, providing gravity flow of water in the drum filter, accumulator part of which is connected through a pump to the distribution manifold. 2. The method of operation of the fish growing complex, characterized in that the water is supplied from the center of the fish farm by the bottom by gravity to a drum filter, then the water is pumped to a distribution manifold, where the flow is distributed to a quartz sand biofilter, a floating biofilter and an oxygenator, moreover, passing through a biofilter with quartz sand, water returns to the drum filter, passing through a biofilter with a floating bio-charge, water returns to the fish tank, passing through an oxygenator, water rotates into a fish tank, in which the rotation of the water is set due to the angle of inclination of the pipes supplying water from the biofilter with floating bio-loading and oxygenator.