KR101012526B1 - land nursery of high tank seawater having small hydropower generating apparatus - Google Patents

Abstract

The present invention drives the aberration generator by utilizing the potential energy caused by the drop of seawater drained from the high water tank, and then, the hydropower plant using the high water tank supply and drainage to supply electric power from the aberration generator to the surrounding farming facilities. The present invention relates to a land farm equipped with a high water tank and a first ground water tank, one end of which is installed to penetrate through the center of the top surface of the seven-shaped support structure and the bottom surface of the high water tank. The other end is located in the receiving space of the first ground tank and the first water supply pipe for causing the seawater to fall from the high water tank to the first ground tank; It is installed between the high water tank and the second ground water tank, one end of which is installed through one side of the top edge of the seven-shaped support structure and one side of the bottom edge of the high water tank, and the other end thereof is a receiving space of the second ground water tank. A second water supply pipe located at the second water supply pipe so as to plunge the seawater from the elevated tank into the second ground water tank; It is installed between the elevated tank and the third ground tank, one end of which is installed through the other side of the top edge of the seven-shaped support structure and the other side of the bottom edge of the elevated tank, and the other end is the receiving space of the third ground tank. A third water supply pipe located in the third water tank to plunge the seawater from the elevated tank into a third ground water tank; It is installed in the lower part of the inner side of each of the first, second and third water supply pipes, and the aberration generator for producing electricity by the seawater falling from the high water tank to the first, second and third ground water tanks and supplying it to the surrounding farming facilities. It is configured to include.

High water tank, water turbine generator, land farm, water pipe, ground water tank

Description

Land nursery of high tank seawater having small hydropower generating apparatus}

The present invention relates to an on-shore farm that raises seawater to raise fish, and more particularly, after driving the aberration generator using potential energy caused by a drop of seawater drained from a high water tank built higher than the ground surface, The present invention relates to an aquaculture farm equipped with a small hydro power generation system using a high water tank feed and drainage to supply electricity generated to an aquaculture farm surrounding facility.

In general, aquaculture farms are fish tanks that raise fish by raising seawater to raise fish on the land, and are concentrated in the east and south coast of Korea and the coast of Jeju Island.

The aquaculture farm collects seawater (sea water or groundwater, etc.), drains and circulates the water tank, and sends it back to the sea.

For example, the daily average intake and discharge of seawater used in Jeju's onshore farms differs depending on the size of farms, farmed fish species, site conditions, and tidal waters.

It is estimated to be 70,000 to 160,000 to ≒ 115,000 tons per day, and the average water discharge per lake is about 1.33 tons / sec (115,000 tons / ton) ÷ 24 h ÷ 60 min ÷ 60 sec ≒ 1.33 tons / sec.

Looking at the seawater circulation system of the land farms in the center of Jeju area, the pump (50㎾ ~ 150㎾ × 2 ~ 4) in full operation alternately for 24 hours when intake, and intake into the tank built higher than the ground surface when draining- It is drained by the natural drop of potential energy (average drop 3m ~ 5m) of stored seawater, and when it is discharged, it naturally falls into the sea by discharge drop (2m ~ 10m).

However, the seawater collected and stored in the high water tank constructed higher than the ground surface is continuously circulated and drained into the land culture tank for 24 hours due to the natural drop of potential energy. Flow rate * effective drop) was not utilized at all, there was a problem that the discharge.

Accordingly, the present invention has been made in order to solve the above problems according to the prior art, an object of the present invention is to utilize aberration generator by utilizing the potential energy caused by the fall of the sea water drained from the high water tank built higher than the ground surface After driving, it is to provide an aquaculture farm equipped with a small hydro power generation facility using a high water tank water supply and drainage to supply electric power generated by the water turbine generator to the surrounding farming facilities.

However, the object of the present invention is not limited to the above-mentioned object, other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

Characteristic of the land farm with a small hydro power plant using a high water tank water supply and drainage in accordance with the present invention for achieving the above object, the support structure 10 of the seven-shape installed at a predetermined height on the ground; A high water tank 14 constructed on an upper surface of the seven-shaped support structure 10 and having a receiving space 12 for raising fish; Installed at one side of the elevated tank 14 with a predetermined interval, each one end is located in the sea water in the sea, each other end is located in the receiving space 12 of the elevated tank 14 Seawater intake pipe (16) (18) and; The seawater intake pipes (16) and (18) are installed in each lower portion of the inner side to pump the seawater to the seawater intake pipes (16) and (18) as well as the pumped seawater to the seawater intake pipes (16) (18). Seawater intake pump 20, 22 to supply to the receiving space 12 of the elevated water tank (14) through; A first ground water tank 26 constructed on the ground and having a receiving space 24 constructed under the seven-shaped support structure 10 to raise fish; A second ground water tank (30) having a receiving space (28) which is constructed on the ground at a predetermined interval with the first ground water tank (26) to raise fish; A third ground tank (34) having a receiving space (32), which is constructed on the ground at a predetermined interval with the second ground tank (30) to raise fish; It is installed between the high water tank 14 and the first ground water tank 26, one end of which is installed through the center of the upper surface of the seven-shaped support structure 10 and the center of the bottom surface of the high water tank 14 And, the other end is located in the receiving space 24 of the first ground water tank 26 and the first water supply pipe 36 to plunge the sea water from the high water tank 14 to the first ground water tank (26) and ; It is installed between the high water tank 14 and the second ground water tank 30, one end of which penetrates one side of the top edge of the seven-shaped support structure 10 and one side of the bottom edge of the high water tank 14 A second water supply pipe 38 disposed at an accommodation space 28 of the second ground water tank 30 so as to plunge seawater from the elevated water tank 14 to the second ground water tank 30; )and; It is installed between the high water tank 14 and the third ground water tank 34, one end of which penetrates the other side of the top edge of the seven-shaped support structure 10 and the other side of the bottom edge of the high water tank 14 It is installed, the other end is located in the receiving space 32 of the third ground water tank 34, the third water supply pipe 40 for causing the sea water to fall from the high water tank 14 to the third ground water tank (34) )and; The first, second, and third water supply pipes 36, 38, and 40 are respectively installed at one lower portion of the inner side, and the first, second, and third ground water tanks 26, 30 in the high water tank 14 are disposed. Aberration generators 42, 44, 46 for producing electricity by seawater plunging to 34 and supplying it to a land farming facility (not shown); A discharge seawater collection tank 50 positioned below the first ground water tank 26 and the second ground water tank 30 and having an accommodation space 48 for collecting seawater discharged and installed underground; The first, second and third ground tanks 26, 30 and 34 are respectively installed between the discharge seawater collecting tank 50, and one end of each of the first, second and third ground tanks 26 is It is installed penetrating one side of the lower surface of the 30, 34, the other end is located in the receiving space 48 of the discharge sea collection tank 50, the first, second, third ground water tank (26) First, second, and third seawater discharge pipes 52, 54, 56 for discharging seawater from the seawater collection tank 50; It is installed to be inclined along the basement, one end of which penetrates one side of the lower surface of the discharge seawater collection tank 50, and the other end thereof is located in the seawater in the sea and the seawater from the discharge seawater collection tank 50. The fourth seawater discharge pipe 58 for discharging the water into the sea.

As described above, the land farm equipped with a small hydro power plant using the high water tank water supply and drainage according to the present invention is driven by aberration generator using potential energy caused by the falling of the sea water drained from the high water tank built higher than the ground surface. Afterwards, the electricity produced by the water turbine generator is supplied to the surrounding farm farm facilities, which has the effect of saving energy.

In addition, the present invention produces electricity from the aberration generator using a drop of seawater drained from the high water tank, there is an effect that can be developed as a clean energy without any pollution generation problem with renewable energy.

In addition, the present invention has the advantage that economic efficiency and energy replacement effect can be obtained by developing and expanding a small capacity and high efficiency power generation system suitable for various characteristics and conditions of aquaculture farms.

Hereinafter, a preferred embodiment of the onshore farm equipped with a small hydro power generation facility using a high water tank water supply and drainage according to the present invention. In the following description of the present invention, detailed descriptions of well-known functions or configurations will be omitted when it is deemed that they may unnecessarily obscure the subject matter of the present invention.

1 is a view showing a schematic cross-section of aquaculture farm equipped with a small hydro power plant using a high water tank water supply and drainage in accordance with the present invention.

As shown in Figure 1, the onshore farms equipped with a small hydro power generation facility using a high water tank water supply and drainage according to the present invention, the seven-shaped support structure 10 is installed at a predetermined height on the ground; A high water tank 14 constructed on an upper surface of the seven-shaped support structure 10 and having a receiving space 12 for raising fish; Installed at one side of the elevated tank 14 with a predetermined interval, each one end is located in the sea water in the sea, each other end is located in the receiving space 12 of the elevated tank 14 Seawater intake pipe (16) (18) and; The seawater intake pipes (16) and (18) are installed at each lower side of each inner seawater to the seawater intake pipes (16) and (18) as well as pumped seawater to the seawater intake pipes (16, 18) Seawater intake pump 20, 22 for supplying to the receiving space 12 of the elevated water tank 14 through; A first ground water tank 26 constructed on the ground and having a receiving space 24 constructed under the seven-shaped support structure 10 to raise fish; A second ground water tank (30) having a receiving space (28) which is constructed on the ground at a predetermined interval with the first ground water tank (26) to raise fish; A third ground tank (34) having a receiving space (32), which is constructed on the ground at a predetermined interval with the second ground tank (30) to raise fish; It is installed between the high water tank 14 and the first ground water tank 26, one end of which is installed through the center of the upper surface of the seven-shaped support structure 10 and the center of the bottom surface of the high water tank 14 And, the other end is located in the receiving space 24 of the first ground water tank 26 and the first water supply pipe 36 to plunge the sea water from the high water tank 14 to the first ground water tank (26) and ; It is installed between the high water tank 14 and the second ground water tank 30, one end of which penetrates one side of the top edge of the seven-shaped support structure 10 and one side of the bottom edge of the high water tank 14 A second water supply pipe 38 disposed at an accommodation space 28 of the second ground water tank 30 so as to plunge seawater from the elevated water tank 14 to the second ground water tank 30; )and; It is installed between the high water tank 14 and the third ground water tank 34, one end of which penetrates the other side of the top edge of the seven-shaped support structure 10 and the other side of the bottom edge of the high water tank 14 It is installed, the other end is located in the receiving space 32 of the third ground water tank 34, the third water supply pipe 40 for causing the sea water to fall from the high water tank 14 to the third ground water tank (34) )and; The first, second and third water supply pipes 36, 38 and 40 are respectively installed at one lower portion of the inner side, and the first, second and third ground water tanks 26 and 30 in the elevated water tank 14 ( Aberration generators 42, 44 and 46 for producing electricity by seawater plunging to 34) and supplying it to an aquaculture facility (not shown); A discharge seawater collection tank 50 positioned below the first ground water tank 26 and the second ground water tank 30 and having an accommodation space 48 for collecting seawater discharged and installed underground; The first, second and third ground tanks 26, 30 and 34 are respectively installed between the discharge seawater collecting tank 50, and one end of each of the first, second and third ground tanks 26 is It is installed penetrating one side of the lower surface of the 30, 34, the other end is located in the receiving space 48 of the discharge sea collection tank 50, the first, second, third ground water tank (26) First, second, and third seawater discharge pipes 52, 54, 56 for discharging seawater from the seawater collection tank 50; It is installed to be inclined along the basement, one end of which penetrates one side of the lower surface of the discharge seawater collection tank 50, and the other end thereof is located in the seawater in the sea and the seawater from the discharge seawater collection tank 50. The fourth seawater discharge pipe 58 for discharging the water into the sea.

In addition, the height of the seven-shaped support structure 10 is preferably 3m to 5m.

Referring to the state of use of the aquaculture farm equipped with a small hydro power plant using a high water tank water supply and drainage according to the present invention configured as described above are as follows.

Prior to explaining the use of the onshore farm with a small hydro power plant using high water tank drainage in accordance with the present invention, the construction process of a land farm with a small hydro power plant using a high water tank drainage (only one embodiment) Please let me know),

First, the discharge seawater collection tank 50 is installed in the basement, and the fourth seawater discharge pipe 58 is installed through the lower surface of one side of the discharged seawater collection tank 50. At this time, the fourth sea discharge pipe 58 is installed inclined along the basement, the other end is located in the sea water in the sea.

And the 7-shaped support structure 10 of 4m-6m is provided on the ground, and the high water tank 14 which has the accommodating space 12 on the upper surface of the 7-shaped support structure 10 is installed.

And, install a seawater intake pipe 16, 18 at a predetermined interval on one side of the high water tank 14, one end of each of which is located in the sea water in the sea, the other end of each of the high water tank (14) is placed in the receiving space (12). Here, seawater intake pumps 20 and 22 are respectively installed at one lower portion of the inner side of the seawater intake pipe 16 and 18.

Then, the first ground water tank 26, the second ground water tank 30, and the third ground water tank 34 are provided on the ground. At this time, the first ground water tank 26 is preferably installed below the seven-shaped support structure (10).

And, the first, second and third water supply pipes (36) (38) and (40) are installed between the elevated water tank (14) and the first, second, third ground water tanks (26, 30, 34), Aberration generators 42, 44, 46 are installed at one lower portion of the inner side of the 1,2,3 water supply pipes 36, 38, and 40.

In addition, the first, second, third seawater discharge pipes 52, 54, 56 are installed between the first, second, third ground water tanks 26, 30, 34 and the discharge seawater collection tank 50. do.

As described above, when the construction of the land farm equipped with a small hydro power plant using the high water tank water supply and drainage according to the present invention is completed, it drives the seawater intake pump 20, 22 installed in the seawater intake pipe 16, 18. . Accordingly, the seawater intake pump 20, 22 pumps the seawater into the seawater intake pipe 16, 18, and simultaneously accommodates the high water tank 14 constructed on the upper surface of the seven-shaped support structure 10. Seawater is supplied to the space 12.

At this time, the seawater is accommodated in the accommodation space 12 of the high water tank (14).

First, second and third water supply pipes 36, 38, and 40 are installed between the elevated water tank 14 and the first, second, and third ground water tanks 26, 30, and 34. Aberration generators 42, 44, 46 are installed in the lower part of the inner side of the 1,2,3 water supply pipes 36, 38, 40,

The seawater accommodated in the accommodation space 12 of the elevated water tank 14 is the first, second and third ground water tanks 26, 30 and 34 along the first, second and third water supply pipes 36, 38 and 40. It is accommodated in the receiving space (24), (28), (32) of. At this time, the length of the first, second and third water supply pipes 36, 38 and 40 is 3m to 5m, and comes down along the first, second and third water supply pipes 36, 38 and 40. Seawater generates potential energy at a plunging level.

In addition, aberration generators 42, 44, and 46 are provided at one lower portion of the first, second, and third water supply pipes 36, 38, and 40, respectively, and the aberration generators 42, 44 are provided. ) 46 generates electricity by the sea water coming down the first, second, third water supply pipes (36, 38, 40).

Accordingly, the aberration generators 42, 44 and 46 supply the produced electricity to the land farm surrounding facilities.

In addition, the first, second, third seawater discharge pipes 52, 54, 56 are installed between the first, second, third ground water tanks 26, 30, 34 and the discharge seawater collection tank 50. Bar,

The seawater accommodated in the accommodation spaces 24, 28 and 32 of the first, second and third ground water tanks 26, 30 and 34 is the first, second and third seawater discharge pipes 52, 54 and ( 56 is accommodated in the receiving space 48 of the discharge seawater collection tank 50.

Accordingly, if seawater is accommodated in the accommodation space 48 of the discharge seawater collection tank 50,

The discharge seawater collection tank 50 discharges the seawater to the sea through the fourth seawater discharge pipe (58).

The above detailed description is merely illustrative of the present invention, which is used only for the purpose of illustrating the present invention and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a view showing a schematic cross-section of aquaculture farm equipped with a small hydro power plant using a high water tank water supply and drainage in accordance with the present invention.

<Description of the symbols for the main parts of the drawings>

10: support structure

14: high water tank

16, 18: seawater collection pipe

20, 22: seawater intake pump

26, 30, 34: above ground tank

36, 38, 40: water pipe

42, 44, 46: water generator

Claims (1)

A seven-shaped support structure 10 installed at a predetermined height on the ground; A high water tank 14 constructed on an upper surface of the seven-shaped support structure 10 and having a receiving space 12 for raising fish; Installed at one side of the elevated tank 14 with a predetermined interval, each one end is located in the sea water in the sea, each other end is located in the receiving space 12 of the elevated tank 14 Seawater intake pipe (16) (18) and; The seawater intake pipes (16) and (18) are installed at each lower side of each inner seawater to the seawater intake pipes (16) and (18) as well as pumped seawater to the seawater intake pipes (16, 18) Seawater intake pump 20, 22 for supplying to the receiving space 12 of the elevated water tank 14 through; A first ground water tank 26 constructed on the ground and having a receiving space 24 constructed under the seven-shaped support structure 10 to raise fish; A second ground water tank (30) having a receiving space (28) which is constructed on the ground at a predetermined interval with the first ground water tank (26) to raise fish; A third ground tank (34) having a receiving space (32), which is constructed on the ground at a predetermined interval with the second ground tank (30) to raise fish; It is installed between the high water tank 14 and the first ground water tank 26, one end of which is installed through the center of the upper surface of the seven-shaped support structure 10 and the center of the bottom surface of the high water tank 14 The other end thereof is located in the receiving space 24 of the first ground water tank 26, and the first water supply pipe 36 allows the seawater to fall from the high water tank 14 to the first ground water tank 26. and; It is installed between the high water tank 14 and the second ground water tank 30, one end of which penetrates one side of the top edge of the seven-shaped support structure 10 and one side of the bottom edge of the high water tank 14 A second water supply pipe 38 disposed at an accommodation space 28 of the second ground water tank 30 so as to plunge seawater from the elevated water tank 14 to the second ground water tank 30; )and; It is installed between the high water tank 14 and the third ground water tank 34, one end of which penetrates the other side of the top edge of the seven-shaped support structure 10 and the other side of the bottom edge of the high water tank 14 It is installed, the other end is located in the receiving space 32 of the third ground water tank 34, the third water supply pipe 40 for causing the sea water to fall from the high water tank 14 to the third ground water tank (34) )and; The first, second and third water supply pipes 36, 38 and 40 are respectively installed at one lower portion of the inner side, and the first, second and third ground water tanks 26 and 30 in the elevated water tank 14 ( Aberration generators 42, 44 and 46 for producing electricity by seawater plunging to 34) and supplying it to an aquaculture facility (not shown); A discharge seawater collection tank 50 positioned below the first ground water tank 26 and the second ground water tank 30 and having an accommodation space 48 for collecting seawater discharged and installed underground; The first, second and third ground tanks 26, 30 and 34 are respectively installed between the discharge seawater collecting tank 50, and one end of each of the first, second and third ground tanks 26 is 30 and 34 are installed to penetrate one side of the lower surface, the other end is located in the receiving space 48 of the discharge sea collection tank 50, the first, second, third ground water tank (26) First, second, and third seawater discharge pipes (52, 54, 56) for discharging seawater from the (30) (34) to the discharged seawater collection tank (50); It is installed to be inclined along the basement, one end of which penetrates one side of the lower surface of the discharge seawater collection tank 50, and the other end thereof is located in the seawater in the sea and the seawater from the discharge seawater collection tank 50. Onshore farm equipped with a small hydro power plant using a high water tank water supply and drainage, characterized in that consisting of a fourth sea discharge pipe (58) for discharging to the sea.

Images