RU2288578C1 - Apparatus for increasing water temperature in fish tanks and basins - Google Patents

Abstract

FIELD: fishery, in particular, increasing of vegetation period for growing of fish and other objects of fresh-water aquaculture in one or two fishery zones.

SUBSTANCE: apparatus has heat accumulator using solar heat and having outer light transmitting surface, heat absorbing surface and device for transfer of heat into water mass. Heat accumulator is made in the form of chamber filled with heat-accumulating material. Outer surface of said chamber is made from selective glass. Heat-absorbing surface is made in the form of collector covered with black opaque paint and dipped into heat-accumulating material. Device for transfer of heat into water mass is formed from heat tubes which are built with their one ends into lower part of said chamber.

EFFECT: increased efficiency in water heating within fish tank, more uniform spreading of heat in water mass, and reduced power consumption.

8 cl, 3 dwg

Description

The invention relates to the field of fish farming and is intended to increase the growing season of growing fish and other freshwater aquaculture objects, in particular, in 1-2 fish farming zones.

A device is known for heating water in fish ponds, in which the source of heat is burners with nozzles that use gaseous fuel, installed on two opposite sides of the pond, and heat transfer means into the water are air supply pipes, connected at one end to the burners and laid along the bottom of the reservoir . Cone nozzles having numerous culvert holes are inserted into the air supply pipes with a gap, and gas exhaust pipes are vertically inserted at the ends of each of the water supply pipes. With the help of injectors, warm air from the burners is pumped into the air supply pipes, the water temperature inside the gap between the pipe and the pipe heats up and bottom water layers circulate through the culverts (see Japan Accepted Application No. 50-39034, class A 01 K 63/00, 1975).

The device can work regardless of the time of day or climatic zones. However, to heat a large amount of water to the optimum temperature for growing fish, a large fuel consumption will be required, which makes this device unprofitable and practically inapplicable in zones 1 and 2 of fish farming. Uniform heating of the entire thickness of the water in the reservoir using this device is also difficult to implement, because air supply pipes are located at the bottom and mainly heat the bottom layers of water. In addition, the nozzles mounted on the air supply pipes, and the culverts through which the water circulates, overgrow with lime and other deposits, which requires additional energy costs during operation of the device.

A number of devices are known for increasing the temperature in fish ponds using solar heat.

A device for increasing the temperature of water in fish ponds is known, which contains a chamber for heating air due to absorbed solar heat as a heat source, mounted on the surface of the water, having an upper transparent surface that transmits solar rays and an opposite inner surface made of absorbing solar heat material, and a means of transferring heat into the water column is a heat exchanger installed on the shore of the pond. The heat exchanger is connected to the chamber for heating by a pipeline for removing hot air and contains a piping system for supplying water from the pond and returning water from the heat exchanger to the pond. The air heated in the chamber is pumped to a heat exchanger through which the water supplied by the pump from the growing pond is circulated. The water, in contact with the warmed air, is heated to the required temperature and returned through the pipeline back to the pond (see Japan Accepted Application No. 41214-81, class A 01 K 63/06, 1981).

However, the use of this device requires a lot of energy, because For uniform heating of the entire water column, circulation pumps and fans for supplying warm air to the heat exchanger are required, which must work continuously. Inside the pipes through which water circulates, lime and other deposits form. In this regard, additional costs for the operation of the device. Such a device is applicable only to warm areas of fish farming with a relatively small difference in the temperature of the outdoor air and water in the pond.

The closest device of the same purpose to the claimed invention in terms of features is a device for increasing the temperature of water in fish ponds, which contains a heat accumulator using solar heat, in the form of a pool filled with two liquids of different densities, having a light-transmitting outer surface, and a bottom made in as a heat-absorbing surface, and a means of transferring heat into the water column is a heat exchanger in the form of a coil laid inside the pond, the ends of which are connected they are to the side of the pool in the liquid zone with a high specific gravity (see Japan Accepted Application No. 41215-81, class A 01 K 63/06, 1981).

The reasons that impede the achievement of the following technical result when using a known device adopted for the prototype include the following.

This device is not very effective for heating water in fish ponds in northern areas, such as zones 1 and 2 of fish farming, and can only be used for warm areas with a relatively small difference in the temperature of the outdoor air and water in the pond. This is due to the fact that this device can only work in the warm time of the day, as well as with a low efficiency of the device, both in the process of generating heat and when transferring it to water. When heat is received in the heat carrier, the sun's rays are partially reflected from the outer surface, and, passing through two layers of liquid, their thermal energy is dissipated and thus most of the energy does not reach the heat-absorbing surface. During the circulation through the pipes, the heated liquid gradually cools, transferring heat to the water, resulting in an uneven distribution of heat in the water column.

In addition, the use of this device requires a lot of energy, because for the implementation of the supply of fluids to the heat storage medium and the circulation of liquids with a large specific gravity through pipes laid along the bottom of the reservoir, pumps are required that must operate continuously.

The present invention is aimed at improving the efficiency of heating water in fish ponds by increasing the efficiency of the device and more uniform distribution of heat in the water column, as well as to reduce energy consumption.

The specified technical result in the implementation of the invention is achieved by the fact that in a device for increasing the temperature of water in fish tanks and ponds containing a heat accumulator using solar heat, having an external, light-transmitting surface, heat-absorbing surface and heat transfer means in the water column, a feature is that the heat accumulator is made in the form of a chamber filled with heat-accumulating material, the outer surface of which is made of selective glass, passing and hered solar energy heat collecting surface is a collector coated with matt black paint and embedded in the heat storage material, and means for transferring heat to the water column are heat pipes having one end embedded in the lower part of the chamber.

As the heat storage material, it is preferable to use nickel nitrate crystalline hydrate.

It is advisable to install the outer surface of the chamber with an inclination at an angle of 36 ° to the horizontal.

The collector is expediently made in the form of a metal frame, in which hollow thin-walled metal tubes are mounted.

Heat pipes are preferably embedded in the lower part of the side walls of the chamber radially at an angle of 90 °.

In this case, the heat pipes have different lengths and are built into the lower part of the side walls of the housing at different heights.

Radiators in the form of metal plates can be mounted on the free end of the heat pipes.

The camera body is preferably made of heat-resistant material with thermal insulation.

Design features of the source of heat and means of heat transfer into the water column in the inventive device can significantly increase the efficiency of heating water in fish ponds at low energy consumption.

The implementation of the outer surface of the chamber of selective glass, for example, coated with a film of tin dioxide, is based on the properties of glasses coated with metal oxides, to lock and retain solar energy. The installation of the outer surface of the camera with a slope of 36 ° to the horizon is advisable from the point of view of maximum absorption of sunlight in climatic conditions in 1 and 2 zones of fish farming.

The heat-absorbing surface, made in the form of a collector, which is a frame in which hollow thin-walled metal tubes coated with matte black paint are mounted, captures up to 90% of radiant energy, which allows to increase the temperature in the chamber by 100 ° С and higher. The resulting heat absorbs heat-accumulating material, which can be used as crystalline Nickel nitrate, which is heated and melts. This type of accumulation is based on the use of the latent heat of the melting - crystallization phase transition. As a result of this, heat pipes, one end embedded in the lower part of the housing at the location of the heat-storage material, can transfer heat from the heat accumulator to the areas where water is heated without loss. The excess heat accumulated by the heat-accumulating material is used to warm the reservoir at night.

The use of heat pipes as a means of transferring heat into the water column is based on the fact that the heat pipe is a long, tight, usually thin-walled metal vessel, the inner walls of which are lined with capillary-porous material impregnated with working fluid. When connecting one end of the heat pipe to a heat source with a temperature T ₁ , and the opposite one to a heat receiver with a temperature T ₂ that is lower than T ₁ , the heat pipe transfers a significant amount of heat, which is many times more than the heat transferred by a solid rod, made of the most thermally conductive materials and having the same dimensions and the same temperature difference between the ends as the heat pipe.

The implementation of the housing of a heat-resistant material with thermal insulation prevents heat loss.

Thus, the set of distinctive features of the described device ensures the achievement of the specified technical result.

Design features of the device provide an even distribution of heat in the water column while reducing energy costs. The device has a high efficiency, does not need additional pumping devices and air supply pipes, as the circulation of water in the pond is natural.

This device can work around the clock, from early spring to late autumn in any fish breeding zone.

The use of a device for heating water in fish ponds provides an increase in the growing season of thermophilic fish species, in particular herbivorous fish, when they are grown in any fish farming zones.

As a result of the analysis of the prior art, an analogue was not found, characterized by features identical to all the essential features of the claimed invention, and the determination of the prototype from the identified analogues made it possible to identify a set of distinctive features that are significant in relation to the technical result.

Therefore, the claimed invention meets the condition of "novelty."

In an additional search for other technical solutions related to devices for heating water in fish ponds, these distinctive features were not found, and the claimed new set of features does not follow explicitly from the existing level of technology and ensures the achievement of a new technical result. Thus, the claimed invention meets the condition of "inventive step".

The drawings show: figure 1 shows a diagram of a device, a longitudinal section; figure 2 is the same, a top view; figure 3 is a General view of the device in a perspective view.

A device for raising the temperature of water in fish ponds consists of a chamber 1 filled with heat-accumulating material 2. The outer surface of the chamber 1 is made of selective glass 3, installed at an angle of 36 ° to the horizontal. The heat-absorbing surface is made in the form of a collector 4, coated with a black matte paint and immersed in a heat-accumulating material 2. Heat transfer means 5 are heat transfer means 5, one end of which is built into the lower part of the housing 6 of the chamber 1.

The collector 4 is made in the form of a frame 7, in which hollow thin-walled metal tubes 8 are mounted.

Heat pipes 5 are built into the lower part of the side walls of the housing 6 of the chamber 1 radially at an angle of 90 °.

In this case, the heat pipes 5 have different lengths and are attached to the housing 6 at different levels in height.

Radiators 9 in the form of metal plates are mounted on the free end of the heat pipes 5.

The housing 6 of the chamber 1 is made of heat-resistant material with thermal insulation 10. The chamber is equipped with a float 11 and an anchor 12.

A device for increasing the temperature of water in fish ponds works as follows.

The device is installed in the water area of the reservoir. The float 11 keeps it afloat, and the anchor 12 prevents it from moving. Selective glass 3 shuts off solar energy, collector 4 absorbs energy as much as possible and transfers this energy to heat-accumulating material 2, the resulting heat is transferred without loss by heat pipes 5 to cold layers of water. The even distribution of heat in the water column occurs due to the natural circulation of water masses due to the rise of warmer layers of water and the influx of colder ones. The uniform distribution in the water column along the perimeter of the reservoir in depth is also facilitated by the fact that the heat pipes 5 are built into the housing 6 radially at an angle of 90 °, at different heights, as well as their different lengths. The presence of radiators 9 in the form of metal plates, mounted on the free ends of the heat pipes 5, contributes to greater heat transfer to the water masses.

The device can be used in the cultivation of herbivorous fish in order to achieve the most optimal water temperatures for their growth.

Such a device can work regardless of the time of day, does not require fuel and additional labor costs for its maintenance, and can be used for growing and growing heat-loving species of fish, early cultivation of live food and other aquaculture objects. The device allows to increase the growing season for growing thermophilic fish species, in particular herbivorous, in 1-2 fish farming zones, as well as for obtaining earlier offspring from producers in industrial conditions.

The above information indicates that when using the claimed invention, the following combination of conditions:

- a device for increasing the temperature of water in fish tanks and ponds according to the claimed invention is intended to increase the growing season for growing fish and other freshwater aquaculture objects, in particular, in 1-2 fish farming zones;

- for the claimed device in the form as described in the independent clause of the claims, the possibility of its implementation using the means and methods described in the application is confirmed;

- a device embodying the claimed invention in its implementation, is able to ensure the achievement of a technical result.

Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (8)

1. A device for increasing the temperature of water in fish tanks and ponds, containing a heat accumulator using solar heat, having an external, light-transmitting surface, heat-absorbing surface and means for transferring heat into the water column, characterized in that the heat accumulator is made in the form of a chamber filled with heat-accumulating material, the outer surface of which is made of selective glass, the heat-absorbing surface is made in the form of a collector coated with matt black paint and immersed in heat accumulating material, and means for transferring heat to the water column are heat pipes having one end embedded in the lower portion of the camera body. 2. The device according to claim 1, characterized in that crystalline nickel nitrate is used as the heat storage material. 3. The device according to claim 1, characterized in that the outer surface of the camera is installed with an inclination at an angle of 36 ° to the horizontal. 4. The device according to claim 1, characterized in that the collector is made in the form of a metal frame into which hollow thin-walled metal tubes are mounted. 5. The device according to claim 1, characterized in that the heat pipes are built into the lower part of the side walls of the camera body radially at an angle of 90 °. 6. The device according to claim 1 or 5, characterized in that the heat pipes have different lengths and are built into the lower part of the side walls of the housing at different heights. 7. The device according to claim 1 or 5, characterized in that radiators in the form of metal plates are mounted on the free end of the heat pipes. 8. The device according to claim 1, characterized in that the camera body is made of heat-resistant material with thermal insulation.

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