KR100890240B1 - Water temperature control system of nursery - Google Patents

Abstract

A fish-farm water temperature control system is provided, which increases the growing condition of the raised fishes and improves the quality of the raised fish. A fish-farm water temperature control system comprises: a heat-emission pipe which is buried in the region with high ground heat by digging out the bore hole(100); a water reservoir(10) for storing the water supplied from the water pipe; a pipeline(12) for supplying the water of the water reservoir to the lower part within the heat-emission pipe; a heat exchange chamber(22) including the heat exchanging plate of the heat pump(20) at the upper part of the heat-emission pipe; an air generation device(30) for supplying the air to the heat exchange chamber; and a bubble exhaust pipe supplying the air to the heat exchange chamber.

Description

Water temperature control system of nursery

The present invention relates to a water temperature control system for fish farm water, and in particular, to excavate a bore-hole in the vertical direction from the ground to bury the heat exchange pipe to heat the water supplied and supply oxygen and heat pump The present invention relates to a water temperature control system for fish farming water that allows heat exchange to supply the fish farm to the fish farm.

China's aquaculture industry is growing as an important food industry, which occupies 33.3% of the total domestic fishery production. Meanwhile, with the development of aquaculture technology, it is developing economically and food resources according to the export of high-quality fish.

However, the domestic aquaculture industry is weakening every year due to internal and external factors caused by the increase in low-priced imported live fish and rising fuel costs.

Problems of farms include increased production costs due to the use of boilers to control the water temperature in the farms, low growth and death of farmed fish by low water temperature, death of farmed fish by breeding microorganisms at high water temperature, and death of farmed fish by red tide microorganisms, The death of aquaculture fish by cold water zone in summer is mentioned. Most of these matters are closely related to the water temperature of the farm, so the water temperature control system of the farm is very important.

In particular, the water temperature of the farms not only has a great influence on the growth and survival of fish, which is a warm-blooded animal, but also is an important factor that causes water quality changes such as oxygen dissolved. It is very important to maintain optimal breeding water temperature for aquaculture as aquaculture is an act of increasing economic efficiency by pursuing maximum productivity under optimal conditions.

In the summer of Korea, high water temperature of about 28 degrees Celsius is maintained, which is a significant limiting factor for the growth and survival of the marine fish flounder, jeopbolak, and sea bass, which are currently mainly farmed. It is expected. In addition, winter water temperature not only acts as a deterrent to temperate fish, but also acts as a limiting factor for overwintering, which makes it difficult to diversify fish species. Although there are many fish that can be winterized in some sea areas in the south coast, most fish species require winter temperatures above 10 degrees Celsius.

Current water temperature control of land tank farms is to increase the water temperature by using a direct boiler in winter, liquid nitrogen, ice and ground water in the summer.

For example, a conventional land flounder fish farm that raises the flounder at 7 degrees Celsius in winter raises the temperature to 21 degrees Celsius and supplies it to the fish farm. In such an oil-based fish farming system, a large amount of seawater consumption is necessary to artificially form natural environmental conditions. Therefore, fuel costs of oil-fired boilers, which account for about 30-40% of the operating cost of fish farms, have become a major cause of the rise in fish farming costs along with the recent high labor costs.

For example, when 100 tons of water is used in a conventional fish farming system, fuel costs of about 15 million won (about 40% of the total production cost) per month are required.

Patent No. 10-0653238 is a prior art invented to solve this problem is provided in the raw water storage tank for storing the water is supplied to the tank for growing the farmed fish and is provided as a waste water storage tank for collecting and storing the waste water in the tank .

In addition, the waste water storage tank is sent to a heat pump for recovering the residual heat of the waste water, and the recovered water is partially heated by the boiler to be supplied to the raw water storage tank so that the water temperature of the water can be adjusted to a predetermined temperature at a lower cost. .

This prior art is costly by using a boiler to increase the water temperature as is known, and the continued use of the waste water, resulting in the lack of dissolved oxygen in the water and also the foreign substances discharged from the farmed fish by the use of waste water And there is a problem that comes by not removing the source of contamination by various germs, etc. has an unsanitary disadvantage.

The present invention has been made in view of the above-described problems, and in particular, excavates a bore-hole in the vertical direction on the ground with sufficient geothermal heat in the ground to bury heat exchange pipes, and the water supplied to the heat exchange pipes. Heat exchange with geothermal heat to control the primary water temperature,

The heat exchanged water is supplied with air bubbles along with the secondary heat exchange by the heat pump to increase the dissolved oxygen in the water, thereby increasing the growth conditions of the farmed fish and increasing the drag against various germs. It aims to improve quality.

The present invention has been mainly described the sea water, but also applicable to fresh water, as well as heat exchanged hot water to be applied to the heating water of the farm, livestock farms heating and cooling, heating water of facilities such as factories.

When described in detail by the accompanying drawings a preferred embodiment of the present invention for achieving the above object is as follows.

1 is a perspective view of the configuration of a preferred embodiment of the fish farm water temperature control system of the present invention, Figure 2 is a cross-sectional view for explaining an embodiment of the fish pond water temperature control system of the present invention.

As shown in the figure, the groundwater is not present or extremely minimal, the rock and the slopes are not generated and the geothermally high area is selected to excavate the borehole 100 of approximately 50 ~ 200m underground and this borehole The heat radiating tube 101 is embedded in 100.

The heat dissipation tube 101 is formed of an uneven shape to increase heat absorption, or further constitutes a heat storage material to allow heat preservation, and a plurality of bore holes 100 are configured as necessary to increase the amount of heat exchange. It is natural to be able to.

And a water reservoir 10 for storing the water supplied from the replenishment water pipe 11 for replenishing the water in a position close to the heat dissipation pipe 101, and a pipe for transferring the water from the water reservoir 10 Line 12 is constituted, but pipeline 12 reaches the lower part of the heat dissipation tube 101 so that the supply water is discharged from the lower part of the heat dissipation tube 101 and is discharged from the heat dissipation tube 101 in the heat dissipation tube 101. Ensure heat exchange.

The discharged supply water is heat-exchanged with the heat dissipation tube 101 heated or cooled from geothermal heat and then rises to the top of the heat dissipation tube 101 again.

The elevated water is maintained at an appropriate temperature suitable for aquaculture fish through the secondary heat exchange in the heat exchange chamber 22 having the heat exchange plate 21 of the heat pump 20.

At this time, a large amount of air is injected into the heat exchange chamber 22 from the bubble discharge pipe 32 through which air generated by the air generating device 30 invented by the inventors perforated through the air supply pipe 31.
The injected air is mixed with the water in the heat exchange chamber 22 to contain more dissolved oxygen and is supplied to the plurality of fish farms 200 through the water injection pipe 23 while the dissolved oxygen amount is increased.

Therefore, aquaculture farms can be grown in fast growing and healthy farmed fishes because they contain large amounts of dissolved oxygen in the water and water controlled by the growing water temperature of the farmed fish.

The air generation device 30 may use a conventional air supply device together with the air generation device 30 invented by the applicant described above.

Air generating device 30 is connected to the discharge pipe 33 in the vicinity of the farm 200 is configured to a lower position than the heat exchange chamber 22, the water discharged from the farm 200 through the discharge pipe 33 It is sent to an air generating device 30 is used as water for air generation and then discharged.

Pipeline 12, the discharge pipe 33 or the water injection pipe 23 of the present invention can be configured to adjust the supply amount by configuring a valve 13 for the adjustment of the water.

The present invention, the cold and hot water heat exchanged with the water of the aquaculture farms can be applied to cooling, heating water of the farm cooling, heating water, livestock farms, cooling, heating and factory facilities, such as air from the air generator You can shut off the air supply.

The present invention is to adjust the water temperature of the water by the geothermal heat of the first and then to the second to adjust the water temperature suitable for the growth conditions of the fish farming, so that the growth conditions of the fish farming is satisfied and air is supplied to the feed water to dissolve the dissolved oxygen. It is possible to improve the quality of farmed fish by fast growth and increase of drag against various germs by increasing the growth conditions of farmed fish by increase, and the production cost saving effect and composition are simple and there is no breakdown by adjusting water temperature control at low cost. It is an invention in which easy installation is exhibited.

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of the configuration of a preferred embodiment of the fish farm water temperature control system of the present invention, Figure 2 is a seawater, groundwater or river as shown in the cross-sectional view for explaining an embodiment of the fish pond water temperature control system of the present invention Water is supplied to and stored in the water storage tank 10 by the supplemental water pipe 11 for receiving water from the water.

Water can be supplied by means of a pump or by dropping down in the valleys.

These sources of water are the source and season, that is, the valley water and the groundwater are about 17 ~ 20 ℃ in summer, the water temperature is higher than this, and in winter it is below-0 ~ 11 ℃.

Therefore, if the high temperature or low temperature water is used as it is, the farmed fish will not go through maturation and spawning temperature. In addition, the growth temperature outside the intake of food intake will slow growth. In the case of fresh water, river water is affected by temperature, but groundwater maintains a constant water temperature throughout the year. However, since recent farmed fish species are not specified, tropical fish, which are inhabited at high temperatures, are also used. The need to provide water is increasing.

As described above, the water stored in the water storage tank 10 is supplied by being heated or cooled to a water temperature suitable for the cultured fish of the farm 200.

That is, water from the water storage tank 10 is supplied to the pipeline 12 and discharged from the lower portion of the heat dissipation pipe 101 of the bore hole 100.

The discharged supply water is first heat exchanged with the heat dissipation tube 101 heated or cooled from geothermal heat to adjust the water temperature of the supply water, and then rise again to the top of the heat dissipation tube 101.

The elevated water is transferred to the heat exchange chamber 22 having the heat exchange plate 21 of the heat pump 20, and the water is adjusted to an appropriate water temperature suitable for fish farming through secondary heat exchange in the heat exchange plate 21.

At this time, the air generated by the inventors of the present invention (30) or the air generated by the conventional air supply device through the air supply pipe 31 through the bubble discharge pipe 32 through a large amount of air heat exchange chamber 22 Since the water in the heat exchange chamber 22 is mixed with and adsorbed with the supplied air, the amount of dissolved oxygen is increased to increase the amount of dissolved oxygen and is supplied to the plurality of fish farms 200 through the water injection pipe 23 in a state of containing a large amount of oxygen.

Therefore, aquaculture farms can grow aquaculture as a fast growing and healthy farming fish because it contains a large amount of dissolved oxygen in the water and water controlled by the growing water temperature.

The geothermal temperature in the borehole 100 is known to have thermal energy that makes up the underground temperature of 10-20 ° C. at about 50-200 m underground in Korea.

Therefore, the water temperature of the water can be adjusted to about 15 ° C. by such heat exchange, and when a higher water or cold temperature is required, heat can be adjusted to the desired water temperature by heat exchange by the heat pump 20 as is known.

As is well known, the heat pump 20 is evaporated while absorbing heat from the outside in the evaporator, becomes a low-temperature, low-pressure gas state and is sucked into the compressor, and in the compressor, the refrigerant is compressed to a high-temperature and high-pressure state and transferred to the condenser. In the condenser, the refrigerant liquefies while releasing heat. The high pressure liquefied refrigerant is decompressed in the expansion valve and the low temperature low pressure liquefied refrigerant enters the evaporator.

Therefore, by changing the use direction of the hot and cold heat on the evaporator and condenser side with one device, cooling and heating (hot water supply) are possible at the same time.

The discharged water discharged from the aquaculture farm 200 is sent to the air generating device 30 through the discharge pipe 33, and then discharged after being used as water for air generation.

Bore hole 100 of the present invention is composed of a plurality of so as to achieve a lot of heat exchange depending on the amount of water and the supply water temperature of the farm, and the depth can be selected, and the heat dissipation tube 101 is uneven to increase heat absorption Or further configure the heat storage material so that heat preservation is always possible.

As described above, the present invention adjusts the water temperature as geothermal heat without using a boiler system or heating system, which is a heating means for increasing the water temperature, so that the temperature of about 3 to 4 ° C. is approximately 30-40% per month. The cost of production could be reduced.

According to the present invention, a large boiler installed in a conventional land tank fish farm has a large oil cost loss, but according to the system of the present invention, it is possible to greatly reduce the oil cost and widen the temperature control, so that various fishes, for example, freshwater fish and marine fish This form is possible.

In addition, the present invention can be applied to the cooling, heating water of the cold, hot water heat exchanged with the water of the aquaculture farms, cooling water for farms, heating water, livestock farms, livestock farms, cooling and heating facilities of factories, etc. The air supply can be shut off.

1 is a perspective view of the configuration of a preferred embodiment of the fish farm water temperature control system of the present invention.

Figure 2 is a cross-sectional view for explaining an embodiment of the fish farm water temperature control system of the present invention.

※ Explanation of Important Symbols

 10; Water reservoir 11; Supplemental water pipe 12; Pipeline

 13; Valve 20; Heat pump 21; Heat exchanger plate

 22; Heat exchange chamber 23; Water injection pipe 30; Air generator

 31; Air supply line 32; Bubble discharge tube 33; Drainage pipe

 100; Borehole 101; Heat pipe 200; Fish farm

Claims (3)

Heat pipe 101 is embedded by excavating the borehole 100 in the ground water, the rock and slope collapse does not occur and the geothermal high area, Water storage tank 10 for storing the water supplied from the supplemental water pipe (11), Pipeline 12 for supplying the water of the water storage tank 10 to the lower portion in the heat dissipation pipe 101, A heat exchange chamber 22 having a heat exchange plate 21 of a heat pump 20 on the heat dissipation pipe 101, An air generation device 30 for supplying air to the heat exchange chamber 21 and an air bubble discharge pipe 32 for supplying the generated air to the heat exchange chamber 21 formed at an upper side of the air generation device 30; The water controlled in the heat exchange chamber 21 is supplied to the fish farm 200 as a water injection pipe, and the discharged water of the fish farm 200 is supplied to the air generating device 30 through the discharge pipe to generate air and then discharged. Fish farming water temperature control system, characterized in that. The method of claim 1, Fish farming water temperature control system, characterized in that a plurality of bore holes (100) is configured to the heat dissipation pipe (101). The method of claim 1, The bubble discharge pipe 32 is a fish farm water temperature control system, characterized in that the air is discharged through a plurality of small holes are configured.

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