JP2003343447A - Deep-sea water lifting device, and sea fertilizing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a deep-sea lifting device that can be installed at a non-land place. <P>SOLUTION: This deep-sea water lifting device is provided with a float 1 and 11, a pump 8 provided on the float 1 and 11, a riser tube 6 to lift deep-sea water, and a wind power generator 3 and 4 provided on the float 1 and 11. The wind power generator 3 and 4 supplies power to the pump 8. The pump 8 is driven by power supplied by the wind power generator to lift deep-sea water through the riser tube 6. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a deep water pumping apparatus.

[0002]

2. Description of the Related Art Utilization of deep water pumped from a depth of several hundreds of meters below the sea level has attracted attention. Various components such as minerals and eutrophic salts contained in deep water have high utility value as resources.

A facility for utilizing deep water, which utilizes such deep water, is disclosed in Japanese Patent Laid-Open No. 7-63155. The known deep water utilization equipment includes a deep water pumping pipe, a discharge pipe, and production equipment such as an ocean thermal energy conversion equipment and a fresh water production plant. The deep water pumping pipe, the production facility, and the discharge pipe are arranged in an inverted U shape. A pump is arranged in the deep water pumping pipe, and the end of the discharge pipe is immersed in the sea. The pump is driven by using wind power. The known deep water utilization facility is provided in a land area such as an island.

It is desirable that facilities utilizing deep water be provided in places other than land.

[0005]

SUMMARY OF THE INVENTION An object of the present invention is to provide a deep water pumping apparatus which can be installed in a place other than land.

Another object of the present invention is to stabilize a deep water pumping device provided at a place other than land.

Still another object of the present invention is to provide a technique for providing an ocean fertilizer, which discharges deep water to the surface layer of the ocean to fertilize the ocean, in a place other than land.

Still another object of the present invention is to provide a marine fertilizer which enables components contained in deep water to stay in the surface layer of the ocean for a long time.

Still another object of the present invention is to provide a marine fertilizer which is easy to maintain.

[0010]

[Means for Solving the Problems] Means for solving the problems will be described below with reference to the numbers and symbols used in the embodiments of the present invention. These numbers and signs are
It is added to clarify the correspondence between the description in the claims and the description in the embodiments of the invention. However, the added numbers / codes should not be used to interpret the technical scope of the invention described in [Claims].

The deep water pumping apparatus according to the present invention comprises a floating body (1, 11, 31), a pump (8, 40) provided on the floating body (1, 11, 31), and a riser pipe (6) for pumping deep water. , 35) and a wind power generator (3, 4) provided on the floating body (1, 11, 31).
The wind power generators (3, 4, 33) supply power to the pumps (8, 40). The pumps (8, 40) are driven by the electric power supplied by the wind power generators (3, 4, 33) to pump deep water from the riser pipes (6, 35).

The riser pipes (6, 35) are connected to the floating body (1, 1).
It is preferable to extend vertically downward from the bottom of the (1, 31). Thereby, the stability of the floating body (1, 11, 31) is enhanced.

The floating bodies (11) are connected to each other,
In addition, it is preferable to include a plurality of pillars (12, 13) extending in the vertical direction.

The apparatus for marine fertilization according to the present invention comprises a floating body (1, 11, 31), a pump (8, 40) provided on the floating body (1, 11, 31) and a riser pipe (6) for pumping deep water. , 35) and a wind power generator (3, 4, 33) provided on the floating body (1, 11, 31). Wind generators (3, 4, 33) are pumps (8, 4
Supply power to 0). The pump (8, 40) is driven by the electric power supplied by the wind power generator (3, 4, 33) to pump deep water through the riser pipe (6, 35), and the floating body (1, 11, 31). The discharge port (1
0, 38).

The deep water is preferably discharged in a direction having a vertically upward component and a horizontal component. As a result, the components contained in the deep sea water are retained in the surface layer of the sea surface for a longer time, and the effect of fertilizing the ocean is enhanced.

Further, the emission port (38) is preferably located in the light-bearing layer.

The marine fertilizer system further includes a first valve (42) interposed between the pump (40) and the discharge port (38), the pump (40) and the riser pipe (35).
And a second valve (43) interposed therebetween. The first valve (42) and the second valve (4
3) means that the pump (40) can be separated from the riser pipe (35) and the discharge port (38) at the time of maintenance,
This improves maintainability.

[0018]

DETAILED DESCRIPTION OF THE INVENTION Referring to the accompanying drawings,
An embodiment of the deep water pumping apparatus according to the present invention will be described.

(First Embodiment) FIG. 1 shows a first embodiment of a deep water pumping apparatus according to the present invention. The first embodiment of the deep water pumping apparatus according to the present invention is an ocean fertilizer. The floating body 1 is provided with the support | pillar 2 in the ocean fertilizer. The floating body 1 is a column body that is generally long in the vertical direction, and a part thereof projects from the sea surface 21. The pillar 2 is provided in a portion of the floating body 1 that projects from the sea surface. A generator 3 is provided at the upper end of the pillar 2. A wind turbine 4 is connected to the generator 3.
When the wind turbine 4 is rotated by the wind power, the generator 3 generates electric power from the rotational energy of the wind turbine 4. The generated electric power is used for pumping deep water, as described later.

On the other hand, stabilizing wings 5 are provided in the portion of the floating body 1 below the sea surface. The stabilizing wings 5 extend in the horizontal direction substantially perpendicular to the direction of gravity, and stabilize the floating body 1.

A riser pipe 6 is provided at the bottom of the floating body 1. The riser pipe 6 is used for pumping deep water. The riser pipe 6 reaches the depth at which deep water exists, and the deep water is pumped out through the riser pipe 6.

The riser pipe 6 not only pumps deep water, but also serves to stabilize the floating body 1 against external forces such as waves. At this time, since the riser pipe 6 has a structure that extends vertically from the bottom of the floating body 1,
Is preferable from the viewpoint of enhancing the stability of

An anchor 7 is further connected to the floating body 1. The anchor 7 is lowered to the seabed 22 and mooring the floating body 1.

FIG. 2 shows the internal structure of the floating body 1. Floating body 1
A pump 8 is provided inside. A power line 9 is connected to the pump 8. Electric power is supplied from the generator 3 described above via the power supply line 9. The pump 8 pumps out the deep water through the riser pipe 6 and discharges the pumped deep water from the discharge port 10 provided in the floating body 1.

Deep water contains eutrophic salts. By deep water is pumped up and discharged from the discharge port 10, the area around the marine fertilizer is fertilized.

At this time, the power for pumping the deep sea water is supplied by the wind force, and the ocean fertilizer operates in a self-contained manner. With an ocean fertilizer that is not installed on land, it is difficult to supply energy for pumping deep water from the outside. By driving the pump 8 by the electric power generated by the rotational energy of the wind turbine 4, the difficulty of supplying energy to the ocean fertilizer is eliminated.

(Second Embodiment) FIG. 3 shows a second embodiment of the deep water pumping apparatus according to the present invention. The second embodiment of the deep water pumping apparatus according to the present invention is an ocean fertilizer, as in the first embodiment.

The structure of the floating body of the ocean fertilizer is different from that of the first embodiment. The floating body 11 includes a main column 12 and a plurality of side columns 13. The main column 12 and the side columns 13 are column bodies that are long in the vertical direction.
The main column 12 and the side column 13 are connected by an arm 14. Two adjacent side columns 13 are connected by an arm 15.

The structure of the main column 12 is similar to that of the floating body 1 of the first embodiment. In the main column 12, similar to the floating body 1 of the first embodiment, the pillar 2, the generator 3, the wind turbine 4, the stabilizer blades 5, the riser pipe 6, the anchor 7, the pump 8, the power supply line 9, and the discharge port 10 are provided. Is provided. Deep water is pumped up by the pump 8 through the riser pipe 6 and discharged from the discharge port 10.

The floating body 11 of the second embodiment includes a main column 12 and a plurality of side columns 13 connected to each other, and is more stable than the floating body 1 of the first embodiment, which is a single column. high.

(Third Embodiment) FIG. 4 shows a third embodiment of the deep water pumping apparatus according to the present invention. The third embodiment of the deep water pumping apparatus according to the present invention is an ocean fertilizer, as in the first embodiment. In the third embodiment, the pumped deep water is discharged in a direction having a vertically upward component and a horizontal component, and the components contained in the deep water are retained in the surface layer of the ocean for a long time. Has been long. This enhances the effect of fertilizing the ocean.

In the third embodiment, the floating body 31 has the support columns 32.
It is provided with. At the upper end of the pillar 32, the windmill 3
3 is connected. The wind turbine 33 converts wind power into rotational force and drives a generator (not shown). The generator is
It is driven by the wind turbine 33 to generate electric power for pumping deep water.

A mooring chain 34 is connected to the floating body 31. An anchor (not shown) is connected to the tip of the mooring chain 34, and the floating body 31 is moored at a desired position by the mooring chain 34.

A riser pipe 35 for pumping deep water is connected to the bottom of the floating body 31. Riser pipe 35
Reaches the depth where deep water exists and riser pipe 3
Deep water is pumped through 5. The riser pipe 35 is
The floating body 31 has a structure that extends vertically from the bottom of the floating body 31, and thus the floating body 31 is stabilized.

A deep water tank 36 is provided inside the floating body 31. The deep water tank 36 includes the riser pipe 35.
Accumulates deep water pumped from. Deep water tank 36
Is connected to a discharge port 38 via a discharge piping system 37, and deep water is discharged from the discharge port 38. A plurality of discharge ports 38 are provided, and correspondingly, a plurality of discharge piping systems 37 are also provided.

The emission port 38 is provided inside the luminescent layer 52 on the surface of the sea surface 51 and at a position close to the sea bottom side of the luminescent layer. Here, the light-containing layer 52 refers to a layer in which the sunlight irradiated on the sea surface reaches with sufficient intensity for photosynthesis. The thickness of the luminescent layer 52 varies depending on the sea area, and typically, the range of 10 to 30 m from the sea surface is the luminescent layer 52. When the deep water is released to the luminescent layer 52, the photosynthesis in the luminescent layer 52 is activated by components contained in the deep water, such as minerals and eutrophic salts.

The floating body 31 is provided with a cap 39 for guiding the deep water discharged from the discharge port 38 in a direction having a vertically upward component and a horizontal component, that is, obliquely upward. The cap 39 has a shape of a side surface of a truncated cone which is connected to the sea bottom side with respect to the discharge port 38 and is open to the sea surface side. The deep water flows along the hood 39 and is discharged obliquely upward.

Since the deep water is discharged obliquely upward, the components contained in the deep water are retained for a longer period of time in the luminescent layer 52.
Stay in. Deep water tends to settle because it has a lower temperature than surface water near the sea surface. However, since the deep water is discharged obliquely upward, the deep water and the surface water are better mixed, and the components contained in the deep water are retained in the light-containing layer 52 for a longer time.

The discharge piping system 37 for discharging the deep sea water from the discharge port 38 includes a pump 40, an electric motor 41, valves 42 and 43.
including. The pump 40 is connected to the electric motor 41.
The electric motor 41 is supplied with electric power from the above-described generator driven by the wind turbine 33 and drives the pump 40. The pump 40 pumps the deep water accumulated in the deep water tank 36 to the discharge port 38 for discharging the deep water. The valve 42 is provided between the discharge port 38 and the pump 40, and the valve 43 is
It is provided between the pump 40 and the deep water tank 36.

By providing the valves 42 and 43, the maintainability of the marine fertilizer is improved. When the pump 40 is maintained, the valves 42, 43 are closed and the pump 40 is disconnected from the outlet 38 and riser pipe 34. The pump 40 can be replaced at any time as needed. At this time, as described above, since a plurality of discharge piping systems 37 are provided, by operating the other discharge piping system 37 while the pump 40 of one discharge piping system 37 is being maintained,
Deep water can be continuously pumped out during maintenance.

In the third embodiment, the pumped deep water is discharged in a direction having a vertically upward component and a horizontal component, thereby enhancing the effect of fertilization of the ocean.

Further, in the third embodiment, the discharge piping system 3
7 is provided with valves 42, 43 for disconnecting the pump 40 from the outlet 38 and the riser pipe 35, whereby
The maintainability of the marine fertilizer is improved.

[0043]

According to the present invention, a deep water pumping device provided at a place other than land is provided.

Further, according to the present invention, a deep water pumping device provided at a place other than land is stabilized.

Further, according to the present invention, there is provided a technique for providing an ocean fertilizer, which discharges deep water to the surface layer of the ocean to fertilize the ocean, in a place other than land.

Further, according to the present invention, there is provided an ocean fertilizer which enables the components contained in the deep sea water to stay in the surface layer of the ocean for a long time.

Further, the present invention provides a marine fertilizer which is easy to maintain.

[Brief description of drawings]

FIG. 1 shows a deep water pumping apparatus according to a first embodiment of the present invention.

FIG. 2 shows an internal structure of a floating body 1.

FIG. 3 shows a deep water pumping device according to a second embodiment of the present invention.

FIG. 4 shows a deep water pumping apparatus according to a third embodiment of the present invention.

[Explanation of symbols]

1: Floating body 2: Support 3: Generator 4: Windmill 5: Stable wings 6: Riser tube 7: Anchor 8: Pump 9: Power line 10: outlet 11: Floating body 12: Main column 13: Side column 21: sea level 22: seabed 31: Floating body 32: Support 33: Windmill 34: Mooring chain 35: Riser tube 36: Deep water tank 37: Discharge piping system 38: outlet 39: Cap 40: Pump 41: electric motor 42, 43: valve

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Eiichi Kobayashi             3-5-1, 717-1, Fukahori-cho, Nagasaki-shi, Nagasaki             Hishi Heavy Industries Ltd. Nagasaki Research Center (72) Inventor Kiyoto Oe             MHI 5-34, Shiba 5-chome, Minato-ku, Tokyo             Inside I Marine Engineering Co., Ltd. F term (reference) 3H078 AA02 AA17 AA26 BB20 CC01                       CC22 CC23 CC47

Claims (7)

[Claims] 1. A floating body, a pump provided on the floating body, a riser pipe for pumping deep water, and a wind power generator provided on the floating body, wherein the wind power generator is provided on the pump. A deep water pumping device that supplies electric power and the pump is driven by the electric power to pump the deep water from the riser pipe. 2. The deep water pumping apparatus according to claim 1, wherein the riser pipe extends vertically downward from the bottom of the floating body. 3. The deep water pumping apparatus according to claim 1, wherein the floating bodies are connected to each other and include a plurality of columns extending in the vertical direction. 4. A floating body, a pump provided on the floating body, a riser pipe for pumping deep water, and a wind power generator provided on the floating body, wherein the wind power generator is provided on the pump. A marine fertilizer device that supplies electric power, and the pump is driven by the electric power to pump up the deep water through the riser pipe and discharge the deep water from an outlet provided in the floating body. 5. The marine fertilizer system according to claim 4, wherein the deep water is discharged in a direction having a vertically upward component and a horizontal component. 6. The marine fertilizer system according to claim 5, wherein the emission port is located in the light layer. 7. The marine fertilizer system according to claim 5, wherein the first valve is provided between the pump and the discharge port, and the first valve is provided between the pump and the riser pipe. Marine fertilizer with a second valve.