KR20050040190A - A raising equipment in a ship - Google Patents

Abstract

The present invention relates to a farming apparatus using a large vessel, a plurality of aquaculture tank (10) provided in the interior of the vessel, a swirl forming mechanism (20) for forming a swirl in the supply seawater of the aquaculture tank (10), A water collection tank 30 for supplying seawater to the aquaculture tank 10, a seawater supply mechanism 45 for connecting the seawater supply line 40 to the ocean to pump seawater, and supplying it to the collection tank 30, the seawater A heat exchanger for heating the supply seawater of the supply line 40, a solar heat collecting mechanism 60 for heating the supply seawater introduced into the collection tank 30, and a wind power generation mechanism for supplying power to the seawater supply mechanism 45. It is composed of (70), the aquaculture tank is provided inside the vessel to be blocked from the outside to improve the wave resistance, can supply rich nutrients and pollution-free seawater of deep sea water, heat exchange the low temperature seawater with surface water and effluent water and engine power Coolant and heat of the unit and generator Ring is raised to an appropriate temperature by the water of a low temperature for the growth of fish by heating using the solar energy is the form to be capable of supplying the tank.

Description

Aquaculture equipment using large vessels {A raising equipment in a ship}

The present invention relates to aquaculture apparatus in the ocean, and more particularly to aquaculture apparatus using a large vessel such as tankers or bulk carriers.

In general, cage farms are set up so that seawater flows into and out of the coastal waters, and feedstocks are used to grow various fish species within the compartment. These cages are located mainly in Naman Bay to minimize wind damage and ease management. However, as the coastal landfill and seaside industrial complexes increase, the number of seas where farming is possible decreases, and some areas are nearing saturation. The marine pollution is in a worse situation.

Large ships can be moved in accordance with the ocean climate due to the shock resistance and mobility, as well as stable anchoring and movement through the ballast 105, conventionally remodeling the interior of the ship to create a large number of compartments, this compartment A device has been developed to install fish to flow into and out of the sea.

As shown in Figure 1, the conventional farming apparatus using a large vessel is formed by partitioning a plurality of the interior of the vessel body 101, the opening and closing lid 102 on the upper wall and a plurality of water intake portion 103 on the side wall And a discharge part 104 is formed, the water intake part 103 and the discharge part 104 is provided with an on-off valve for controlling the access of the sea water, and a sea water intake pump for forcibly sucking or discharging the sea water, the ship body ( 101 is used as a cage, and the surface water is allowed to enter and exit through the water intake unit 103 and the discharge unit 104 to form a cage.

When the ship body 101 is directly used as a cage, the surface water is used as it is, so it is impossible to cope with changes in the seawater temperature according to the season. There was a problem that can not form together.

In addition, surface water is used as it is, so that it is exposed to marine pollution. Especially, surface water is more affected by red tide than deep sea water.

Therefore, when used in salvaging deep sea water rich in inorganic nutrients and low pollution, when the water temperature is lower than surface water and supplied to fish immediately after salvage, there is a high possibility of death by low temperature.

Therefore, the present invention has been devised to solve all the problems described above, by raising the temperature of the supply seawater to an appropriate temperature can be supplied to the fish farming tank, large wave resistance, easy to move according to the climate of the ocean without a rest period The purpose is to provide a farming apparatus using a large vessel capable of farming.

In order to achieve the above object, the present invention is provided with a cultured water tank inside the vessel to be blocked from the outside to improve the breakage resistance, can supply abundant nutrients and pollution-free water to the cultured water tank, By heat-exchanging with surface and discharge water, heat-exchanging with cooling power of the engine power unit and generator, and heating by using solar energy, it is possible to raise the water temperature suitable for the growth of fish and supply it to the aquaculture tank.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Aquaculture apparatus using a large vessel according to the present invention, a plurality of aquaculture tank (10) provided in the interior of the vessel, a swirl forming mechanism (20) for forming a swirl in the supply seawater of the aquaculture tank (10), and A catchment tank 30 for supplying seawater to the aquaculture tank 10, a seawater supply mechanism 45 for connecting the seawater supply line 40 to the ocean to pump the seawater and supplying it to the catchment tank 30, and the seawater supply A heat exchanger for raising the supply seawater temperature of the line 40, a solar heat collecting mechanism 60 for heating the supply seawater flowing into the collection tank 30, and a wind power generation mechanism for supplying power to the seawater supply mechanism 45. It consists of 70 parts.

The culture tank 10 is provided in a double layer in the interior of the ship, a plurality of each is provided at a predetermined interval, each culture tank 10 is formed with a seawater inlet 11 at the top, seawater in the bottom center A drain hole 12 is formed, and each swirl forming mechanism 20 is provided.

The swirl forming mechanism 20 circularly moves the seawater in the culture water tank 10 by supplying the seawater with the incident angle α along the circumferential direction to the sea water inlet 11 of the culture water tank 10.

The seawater in the culture tank 10 forms a swirl by the swirl forming mechanism 20 to promote the movement of the cultured fish and to quickly and uniformly mix the remaining water and the supply water in the seawater, and excretion of the fish And the remaining feed is concentrated in the center by the centrifugal force can be quickly discharged through the sea water outlet 12 at a time.

The collection tank 30 receives and stores the seawater through the seawater supply mechanism 45, and is connected to the swirl forming mechanisms 20 of the plurality of aquaculture tanks 10 individually through the seawater distribution pipe 31. By supplying seawater independently to each culture tank 10, it is possible to supply the appropriate seawater according to different seawater temperature and pollution degree for each culture tank 10, the swirl forming mechanism of each culture tank 10 It is also possible to supply sea water through a separate supply line from (20).

The sea water supply mechanism 45 is provided with a pump and the sea water is supplied to the collection tank 30 by lifting the sea water through the sea water supply line 40, the pump is operated by receiving the power by the wind power generation mechanism (70) The heat exchanger is connected to the seawater supply line 40.

The sea water supply line 40 is extended to the deep sea of the seabed to lift and supply deep sea water, and the supplied sea water to be lifted is supplied to the collection tank 30 in a state where the water temperature is raised through a heat exchanger.

The seawater supply line 40 is able to supply the seawater suitable for the growth of cultured fish to the cultured water tank 10 by selecting the optimum water according to the temperature, salinity, pollution degree of the seawater for each depth layer.

The heat exchanger is a surface water heat exchanger 51 for raising the water temperature by contacting the supply seawater of the seawater supply line 40 with the surface water, and a effluent water for increasing the water temperature by contacting the supply seawater of the seawater supply line 40 with the discharge water. Cooling water heat exchanger (53), supply seawater of the seawater supply line (40) to increase the water temperature by contacting the supply seawater of the heat exchanger (52), the seawater supply line (40) with the cooling water of the ship engine power unit (E) It consists of the solar heat exchanger 61 which raises a water temperature by the solar heat collecting mechanism 60.

The surface water heat exchanger 51 is provided by being exposed to the outer wall of the ship, the outer peripheral surface is in contact with the surface water, bent continuously formed at a predetermined interval to each other, connected to the sea water supply line 40 in series to supply the seawater As it passes through, it exchanges heat with surface water to raise the temperature of the supplied seawater.

The effluent water heat exchanger 52 is connected in series with the discharge pipe 15 discharging the effluent water from the aquaculture tank 10 to pass the effluent water, and is installed to be in contact with the surface water heat exchanger 51 so as to be a surface water heat exchanger. The water temperature of the supplied seawater passing through (51) is raised.

The solar collector 60 is connected to the solar heat exchanger 61 to the solar heat collecting plate, it is possible to increase the temperature of the supply sea water by heat-exchanging the solar heat exchanger 61 and the sea water supply line 40.

In addition, it is possible to increase the water temperature of the supplied seawater by heat-exchanging the cooling water circulated from the engine power unit E or the generator driving the ship with the seawater supply line 40.

That is, the engine power unit E or the generator uses seawater having a lower temperature than the surface water as the cooling water, and thus the cooling efficiency is increased, and the water temperature of the supplied seawater heat exchanged with the cooling water is increased.

As shown in FIG. 4, the surface water heat exchanger 51 has one outer peripheral surface exposed to the outside to exchange heat with the surface water, and the other outer peripheral surface contacts the discharge water heat exchanger 52 to exchange heat with the discharged water. It is possible to increase the water temperature of the supply seawater passing through the inside of the 51, it is possible to increase the water temperature again by the solar heat collector (60), heat exchanged with the coolant of the engine power unit (E) or the generator It is possible to raise the water temperature.

As described above, according to the aquaculture apparatus using a large vessel according to the present invention, a plurality of aquaculture tanks are provided to be blocked from the outside in the interior of the vessel to improve the wave resistance and to individually control different growth conditions for each species. It can grow a variety of fish species, supply rich nutrients and pollution-free water of deep sea water, heat exchange low temperature seawater with surface water and effluent water, heat exchange with coolant of engine power unit and generator, and heat using solar energy By raising the seawater to the appropriate water temperature for the growth of fish, there is an effect that can overwinter the farmed fish.

1 is a conceptual diagram showing a farming apparatus using a large vessel according to the prior art,

2 is a conceptual diagram showing a farming apparatus using a large vessel according to the present invention,

Figure 3 is a side view showing a surface water heat exchanger of aquaculture apparatus using a large vessel according to the present invention,

Figure 4 is a side view showing the effluent heat exchanger of the aquaculture apparatus using a large vessel according to the present invention,

Figure 5 is a side cross-sectional view showing a culture tank of the culture apparatus using a large vessel according to the present invention,

6 is a plan view showing a culture tank of the culture apparatus using a large vessel according to the present invention,

7 is a conceptual diagram showing a state of use of aquaculture apparatus using a large vessel according to the present invention.

Explanation of symbols on the main parts of the drawings

10: aquaculture tank 11: seawater inlet

12: sea drainage drainage 20: swirl formation mechanism

30: collecting tank 31: seawater distribution pipe

40: seawater supply line 45: seawater supply mechanism

51: surface water heat exchanger 52: effluent heat exchanger

53: coolant heat exchanger 60: solar collector

61 solar heat exchanger 70 wind power generator

Claims (7)

Is provided in the interior of the ship, the sea water inlet 11 and the sea water drainage port 12 is formed on one side, a plurality of aquaculture tank (10) for culturing fish; A catchment tank 30 for receiving and storing seawater and supplying seawater to the aquaculture tank 10; Forming apparatus using a large vessel comprising a; seawater supply mechanism 45 for pumping seawater through the seawater supply line 40 to supply to the collection tank (30). The surface water heat exchanger of claim 1, wherein the surface water heat exchanger is provided on the outside of the ship to be in contact with the surface water, is connected to the seawater supply line 40, and heat-exchanges with the surface water to increase the seawater temperature of the seawater supply line 40. 51); Aquaculture apparatus using a large vessel, characterized in that it further comprises. The apparatus of claim 1, further comprising a effluent water heat exchanger (52) for exchanging effluent water discharged from the aquaculture tank (10) and seawater of the seawater supply line (40). . According to claim 1, The seawater supply line 40 is aquaculture apparatus using a large vessel, characterized in that the heat exchange with the cooling water for cooling the engine power unit (E) or the generator of the vessel. The aquaculture apparatus using a large vessel according to claim 1, further comprising: a solar heat collecting mechanism (60) for heating sea water of the collecting tank (30). According to claim 1, Aquaculture apparatus using a large vessel, characterized in that it further comprises; wind power generation mechanism (70) for supplying power to the sea water supply mechanism (45). The culture apparatus using a large vessel according to claim 1, further comprising a swirl forming mechanism for forming a swirl in the seawater of the culture tank (10).