JP4412911B2 - Water pollution control system and pollution control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
More particularly, the present invention relates to a system and a method for suppressing the occurrence of a baby and preventing water contamination in a closed water area where there is no water flow such as a pond or a swamp. .
[0002]
[Prior art]
In closed water areas such as reservoirs and ponds used as agricultural water, environmental factors such as eutrophication, water temperature rise, stagnation, and sufficient lighting are combined and suitable growth conditions are set. It occurs in large quantities. Such large outbreaks not only cause malfunctions in agricultural irrigation equipment, but also cause landscape problems. In addition, the occurrence of babies in the water supply source not only has a problem with the off-flavor of drinking water, but also hinders the effect of coagulation sedimentation that is carried out during water purification treatment, leading to a rise in facility maintenance costs. It is connected to. In addition, the occurrence of babies in water parks impairs the functions of waterside hydrophilicity, such as the generation of off-flavors and waterside landscape obstruction, and the disruption of the balance of ecosystems in water bodies.
[0003]
Ako accumulates floating cyanobacteria on the surface of the water by increasing the water temperature, increasing the concentration of nutrients in the water area due to inflow of domestic wastewater and elution from the sediment, and stagnation of the water area. As a result, the blue-green algae undergoes photosynthesis with sunlight, so that they are generated in large quantities to the extent that problems occur in water.
[0004]
In view of the above, a number of techniques have been proposed for removing chin. For example, a collection technique using vacuum, a removal technique using nutrient salts, a shading technique, a technique using chemical spraying, a technique using antibiotics, a technique using water circulation, and the like. The vacuum recovery technology uses vacuum to suck and collect the oyster, which has the problem that the recovery efficiency is low and it must be treated as an industrial waste treatment. Even so, there is a problem that the dehydration process must be performed after collection, and the profit is not met. In addition, nutrient removal technology includes adsorption, filtration, and catalytic oxidation technology using biofilms. By using this catalytic oxidation technology, the nutrient source is removed to prevent the growth of the fish. can do. This catalytic oxidation technology is effective in ponds that do not flow in from the outside or in ponds that have relatively little nutrient inflow. However, if the recovery capacity is saturated due to adsorption or filtration, maintenance such as filter replacement is necessary. In the membrane treatment, there is a problem that a sludge treatment is necessary. The shading technique is a technique for suppressing the photosynthesis activity by covering the water surface, and although it is possible to suppress the generation of the chin, there is a problem that the growth of plants in the water area is hindered.
[0005]
Moreover, in the spraying of chemicals, pollutants can be forcibly coagulated and precipitated, and although there is an immediate effect, there is a problem that the water quality environment changes rapidly and affects other ecosystems. Antibiotic utilization technology uses predatory plankton and large aquatic plants, but instead of eel, it creates dominant species, affecting the ecosystem, and in zooplankton mass growth, It becomes a factor causing filtration trouble in water source ponds. Therefore, in general, a water circulation technique is used.
[0006]
For example, a purification device has been proposed in which a pump is installed on a trolley, sucks deep water, and mixes it with surface water (see Patent Document 1). This device further includes an impeller and an air diffuser, which creates a downward flow by the rotation of the impeller, and forcibly sends air bubbles generated in the diffuser to the downward flow for aeration. Is. Further, a method and equipment for circulating stored water between a water surface side partition and a water bottom side partition partitioned by a light shielding plate have been proposed (see Patent Document 2).
[0007]
Ako is known to grow about twice as long as the residence time is 2 to 4 days, and it is necessary to continuously circulate the entire residence water. In this case, a large device is required. There was a problem that running cost was high and maintenance could not be performed easily. Therefore, there is a demand for a system and method that can be easily maintained with a simple system, and that can effectively circulate water and suppress the occurrence of the chin.
[0008]
[Patent Document 1]
JP-A-8-033899 (pages 1 to 3 and FIG. 1)
[Patent Document 2]
Japanese Patent Laid-Open No. 10-225697 (pages 1 to 4 and FIG. 1)
[0009]
[Problems to be solved by the invention]
The present invention effectively suppresses the generation of pollutants such as oysters accompanying the rise in water temperature in summer in a closed water area such as lakes where water stays, can be provided at low cost, and can be easily maintained. It is an object of the present invention to provide a water pollution control system and a pollution control method capable of effectively and easily suppressing the generation of pollutants.
[0010]
[Means for Solving the Problems]
The above object of the present invention is achieved by providing the water pollution control system and the pollution control method of the present invention.
[0011]
That is, according to the invention of claim 1 of the present invention, a system that suppresses contamination of the stored water by generating a water flow in the stored water in a closed water area,
At least one floating body disposed in a surface layer portion of the stored water and forming a flow path in the surface layer portion;
A plurality of water flow generating means arranged to be immersed in the surface layer portion spaced apart from the floating body and generating a water flow in the flow path formed by disposing the floating body;
A water pollution control system is provided, wherein a flow is generated toward the floating body by the water flow, and a flow toward the bottom of the water is generated by a collision with the floating body.
[0012]
According to invention of Claim 2 of this invention, the said floating body is arrange | positioned in the center part of the said closed water area, The said several water flow generation means are arrange | positioned at the edge of the said closed water area, The said water flow Provides a water pollution control system that produces a flow from the edge toward the center.
[0013]
According to invention of Claim 3 of this invention, the said floating body is a floating island provided with the planting base, and absorbs and removes a nutrient in water, The water area covered with the said floating body of the said closed water area A water pollution control system characterized by shielding light is provided.
[0014]
According to the invention of claim 4 of the present invention, the floating body includes a float part floating on the water surface, a partition part extending from the float part toward the bottom of the water, and a weight part disposed below the partition part. A water pollution control system is provided which is a constructed silt fence.
[0015]
According to the invention of claim 5 of the present invention, the water pollution control system further includes a light shielding member that is configured so that the float portion surrounds the predetermined water area and covers the water surface of the predetermined water area. Is provided.
[0016]
According to the invention of claim 6 of the present invention, there is provided a water pollution control system, wherein the system further includes a decomposition / removal device for removing contaminants in the staying portion.
[0017]
According to the invention of claim 7 of the present invention, it is a method of generating a water flow in stored water in a closed water area to suppress contamination of the stored water,
Disposing at least one floating body in a surface layer portion of the stored water, and forming a flow path in the surface layer portion;
A step of immersing and arranging a plurality of water flow generating means in the surface layer portion separated from the floating body, and generating a water flow in the flow path formed by arranging the floating body,
A water pollution control method is provided, wherein a flow is generated toward the floating body by the water flow, and a flow toward the bottom of the water is generated by a collision with the floating body.
[0018]
According to invention of Claim 8 of this invention, the said floating body is arrange | positioned in the center part of the said closed water area, The said several water flow generation means is arrange | positioned at the edge of the said closed water area, The said water flow Thus, a water contamination suppression method for generating a flow from the edge portion toward the central portion is provided.
[0019]
According to invention of Claim 9 of this invention, the said floating body is a floating island provided with the planting base, and absorbs and removes a nutrient in water, and the water area covered with the said floating body of the said closed water area Provided is a method for suppressing water contamination, characterized by shielding light.
[0020]
According to the invention of claim 10 of the present invention, the floating body includes a float part floating on a water surface, a partition part extending from the float part toward a water bottom, and a weight part provided at a lower part of the partition part. There is provided a method for suppressing contamination of water, which is a constructed silt fence and generates the flow along the partition wall.
[0021]
According to an eleventh aspect of the present invention, the float is configured to surround the predetermined water area, and covers the water surface of the predetermined water area by disposing a light shielding member. A suppression method is provided.
[0022]
According to the twelfth aspect of the present invention, there is provided a method for suppressing water contamination, further comprising the step of removing contaminants in the staying portion by the decomposition and removal apparatus.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, although the present invention is explained in detail with reference to drawings, the water pollution control system and the water pollution control method of the present invention are not limited to the following embodiments. FIG. 1 is a diagram showing a first embodiment for suppressing the generation of pollutants using the water pollution control system of the present invention. Fig.1 (a) is the figure which showed the place which has arrange | positioned the water pollution control system of this invention in the closed water area 1 without a water flow like a lake, FIG.1 (b) is a figure shown in Fig.1 (a). FIG. 1C is a cross-sectional view taken along the cutting line AA in FIG. 1, and FIG. 1C is a cross-sectional view of the flow path formed by the floating body cut along the cutting line BB in FIG. FIG. The water contamination suppression system of the present invention is immersed in the surface layer portion of the stored water at the central portion of the closed water area 1 and the floating body 2 disposed on the surface layer portion of the stored water and the edge portion of the closed water area 1. The water flow generating means 3 is arranged to form a flow path 4 by arranging the floating body 2, and a water flow is generated by the water flow generating means 3 to generate a water flow through the flow path 4. It can be made to. Moreover, the system of this invention has arrange | positioned the water flow generation means 3 in the edge part of the closed water area 1, and has arrange | positioned the floating body 2 in the center part of the closed water area 1, Thereby, toward the center part from an edge part. Thus, a water flow can be generated. By this water flow, water collides with the floating body 2 and a water flow can be generated toward the bottom of the water. Therefore, the flow of water can be generated not only in the surface layer portion of the stored water in the closed water area 1 but also in the water or the bottom of the water. Thus, the water pollution control system of this invention can be made into the state which always produced the flow of water in the closed water area 1 whole. By generating water flow in the closed water area 1, the increase in water temperature is suppressed, the concentration of nutrients in the predetermined area is suppressed, and the mass growth due to the accumulation of water surface of the planktonic cyanobacteria and the activation of photosynthesis is suppressed. Make it possible. In the present invention, the surface layer portion refers to a region having a depth of about 1 m from the water surface.
[0024]
In the embodiment shown in FIGS. 1A and 1B, the floating body 2 is a floating island, and the floating island includes a frame 5 and a planting base (not shown). The frame 5 shown in FIGS. 1A and 1B is provided with a plurality of holes 6 so that the roots of the aquatic plant can be immersed in water. In the present invention, the size of the hole 6 can be increased in order to maintain the occupied area of the closed water area 1 and reduce the material of the frame 5. A planting base can be installed in the enlarged hole 6. The plant to be planted on the planting base may be any plant such as vegetables or foliage plants. , Omodaka, Oyster, Catfish, Kogama, Tsuruyoshi, Himega, Kwai, Shobu, Seri, Senninmo, Futoi, Mikuri, Mizubasho, Misohagi, Ashikaki, Inuhotarui, Ibokusa, Duckweed, Uchizena, Moe Water plants such as water lotus, lotus, and empty heart vegetables, tomatoes, cucumbers, spinach, salad vegetables, roses, tulips and the like. In the present invention, an aquatic plant is preferable in order to absorb nutrients such as phosphorus and nitrogen in water and promote suppression of eutrophication in the closed water area 1.
[0025]
The frame 5 of the floating body 2 that can be used in the water pollution control system of the present invention may be of any material as long as it can be planted and floated on water. Specifically, fiber reinforced plastic (FRP), polystyrene foam, vinyl chloride, concrete, and wood can be used. In the present invention, it is possible to use a palm fiber that floats on water, has durability, and can be used as a planting base without using the frame 5. Moreover, as a planting base, in addition to the above-mentioned palm fibers, urethane foam, fishing nets, polystyrene foam beads, soil, or a combination thereof can be used.
[0026]
The frame 5 shown in FIGS. 1A and 1B is anchored so as to be arranged in the central portion of the closed water area 1 using anchor members such as an anchor 7 and an anchor wire 8. In the present invention, the frame 5 may be of any size as long as it can cause a flow of water in the entire closed water area 1, but for example, if it is a closed water area 1 having a size of 200 m × 150 m. The frame 5 can have a size of 80 m × 35 m to 120 m × 60 m. In addition, when the water surface of the closed water area 1 falls or rises, the frame 5 can be arranged at the center of the closed water area 1 by adjusting the length of the anchor wire 8.
[0027]
A plurality of water flow generating means 3 shown in FIGS. 1A and 1B are arranged at the edge of the closed water area 1 and soaked in the surface layer. In the present invention, when the water flow generated by the water flow generating means 3 is large, vortexes are generated in the surface layer portions on both sides in the traveling direction of the generated water flow, and the generation and accumulation of the chin occur around the vortex with almost no water flow. Since there is a possibility, the water flow generated by the water flow generation means 3 is preferably a slow flow that does not generate this vortex. In the present invention, the water flow generating means 3 can be a submersible pump installed at a predetermined depth from the water surface. The submersible pump can be installed and floated on a frame formed of the above-described material that floats on water, and can be installed at a predetermined depth by using the same thing as the above-described mooring member. Further, by adjusting the length of the mooring member, it can be installed at a predetermined depth even when the water surface rises and falls. In addition, the installation depth of the submersible pump may be any depth as long as it is a surface layer portion, and the discharge port can be disposed, for example, at a depth of 0.1 m to 1 m from the water surface. Further, the discharge amount can be appropriately set in consideration of the water amount and size of the closed water area 1 and the number of installed pumps so that the above-described vortex does not occur.
[0028]
The water flow generating means 3 used in the present invention does not need to be continuously operated for 24 hours, and can be appropriately operated depending on the water temperature, sunshine duration, and the like. For example, in winter, the water temperature is low, the sunshine hours are short, and there are no babies. Therefore, in the spring and autumn, only half of the water flow generating means 3 is in operation during the day, and in the summer, during the day. By controlling so that the total number of operations and half the number of operations at night, it is possible to suppress running costs and appropriately control water contamination. Further, in the present invention, the water flow generating means 3 is not limited to the edge of the closed water area 1 as described above and as shown in FIG. It can also be arranged between and the edge. Furthermore, the water flow generating means 3 can be remotely operated, and can be operated and stopped as appropriate. The water flow generation means 3 is arranged so that the discharge port for generating the water flow is oriented along the water circulation direction.
[0029]
In the embodiment shown in FIG. 1A, a plurality of water flow generating means 3 are arranged along the edge of the closed water area 1 and in a flow path 4 formed by the floating body 2 so that the water flow is in a certain direction. Is arranged. Due to the operation of the water flow generating means 3, a flow of water is generated in the flow path 4, and the water circulates. In this case, in addition to the circulation direction, water flows toward the floating body 2 arranged at the center, and the water that collides with the floating body 2 flows along the side surface of the floating body 2 toward the bottom of the water.
[0030]
As shown in FIG. 1 (c), the water that collides with the side surface of the floating body 2 and flows toward the bottom of the water flows again toward the edge of the closed water area 1 at the bottom of the water. Thereby, the circulation of water also occurs in the cross section of the flow path 4. More specifically, since the water flowing toward the floating body 2 is continuously supplied, the water colliding with the floating body 2 does not return toward the edge of the closed water area 1 but flows toward the bottom of the water. It will be. Moreover, although the water which flowed toward the bottom of the water flows toward the arrow line C which is the lower direction of the floating body 2 and the arrow line D which is the edge direction, the water which flows toward the arrow line C passes through the floating body 2. Since the same flow is also generated in the flow path 4a on the opposite side, the flow is pushed back by the flow indicated by the arrow E, and consequently flows in the direction of the arrow D. The water that flows in the direction of the arrow line D collides with the shore and flows toward the surface layer where the water flow generating means 3 is arranged.
[0031]
The pollution control system of the first embodiment shown in FIG. 1 circulates the stagnant water in the closed water area 1 described above, absorbs nutrients in the water to plants such as aquatic plants, and covers the water surface with the floating body 2. By shielding the light, it is possible to effectively suppress the occurrence of the chin. In addition, in the plant root immersed in water, the planting base adjacent to the water surface or the frame 5, the water flow is slow and it is easy to capture nutrients in the water. This can facilitate removal of contaminants in the water.
[0032]
FIG. 2 is a diagram showing a second embodiment of the pollution control system of the present invention. FIG. 2 (a) is a diagram showing a floating body arranged at the center of a closed water area and a plurality of water flow generating means arranged at the edge, and FIG. 2 (b) shows a section line FF. It is sectional drawing cut | disconnected along. In FIG. 2A, a silt fence having a float portion 9 continuously extending in one direction is used as the floating body 2. In addition to the float part 9, the silt fence has a partition part 10 extending toward the bottom of the water as shown in FIG. 2 (b), and a weight part 11 provided below the partition part 10 so that the partition part 10 is not turned up by the water flow. And anchored by an anchor 7 and an anchor wire 8 so as not to move from the central part of the closed water area 1. Silt fences are generally used to retain diffusing polluted water, and the accumulated polluted particles naturally solidify and settle, thereby greatly reducing the range of diffusion.
[0033]
The float portion 9 shown in FIG. 2 (a) can be made, for example, by filling the inside of a waterproof sheet with foamed polystyrene and having a structure elongated in one direction. If the closed water area 1 has the above-described size, The length of the float part 9 can be set to 80 m to 120 m. In this invention, if the flow path 4 can be formed appropriately and water can be circulated by the water flow generation means 3, it will not be limited to these lengths. Moreover, any material can be used as long as it floats on water, not limited to the above-mentioned expanded polystyrene. It may be a rubber float simply expanded by supplying air inside.
[0034]
As the partition wall portion 10 shown in FIG. 2B, a partition wall having an appropriate size can be used according to the depth of the closed water area 1, and a partition wall whose size can be appropriately changed can be used. In this invention, the partition part 10 is used in order to form the flow path 4, and the length which turned to the water bottom direction shall be 1 m or more. This is for eliminating the flow to the flow path 4 on the opposite side through the floating body 2 through the lower part of the floating body 2 and allowing the water colliding with the partition wall 10 to flow and circulate appropriately in the bottom direction. In the present invention, the partition wall 10 may be any material such as a plate or a sheet as long as it forms the flow path 4 and can flow the collided water in the direction of the bottom of the water. Any resin such as polyethylene or polyester that does not corrode may be used.
[0035]
The weight part 11 shown in FIG.2 (b) is a weight used in order to prevent the partition part 10 from rolling up by a water flow, For example, a steel chain can be used. As the water flow generating means 3, the above-described submersible pump can be used. The water circulation in the embodiment shown in FIG. 2 is the same as that in the embodiment shown in FIG.
[0036]
FIG. 3 is a diagram showing a third embodiment of the water pollution control system of the present invention. FIG. 3 (a) is a diagram showing a floating body placed at the center of a closed water area, and a plurality of water flow generating means and a steam decomposition / removal device arranged at the edge, and FIG. It is sectional drawing cut | disconnected along the cutting line GG. The floating body 2 shown in FIGS. 3A and 3B is the same as the floating body 2 shown in FIG. 2, and the water flow generating means 3 is also the same. Furthermore, water circulation is the same. In the embodiment shown in FIGS. 3 (a) and 3 (b), a decomposing / removing device 13 is further arranged to remove the agitation that occurs in the staying portion 12 that is the corner of the closed water area 1. As the decomposition / removal device 13, for example, an electrolysis device can be used. This device is a device that generates fine bubbles of oxygen and hydrogen by electrolysis, and floats and collects the sea urchins on the water surface. In the present invention, any apparatus can be used as long as it can remove the chin, and a filtration apparatus or the like can also be used. However, since the processing after the capture becomes a problem, the above-described disassembly and removal apparatus 13 is preferable. The decomposition / removal device 13 can be provided as necessary.
[0037]
In the present invention, it is also possible to use a phosphorus adsorbent to lower the phosphorus concentration in the closed water region 1 or to sterilize by irradiating with ultraviolet rays using an ultraviolet lamp. In the present invention, the above-described phosphorus adsorbent and ultraviolet lamp can be applied as necessary, and other necessary devices and devices can be used.
[0038]
FIG. 4 is a diagram showing a fourth embodiment of the water pollution control system of the present invention. FIG. 4 (a) is a diagram showing a floating body arranged at the center of the closed water area and a plurality of water flow generating means arranged at the edge, and FIG. 4 (b) shows a cutting line HH. It is sectional drawing cut | disconnected along. In the embodiment shown in FIG. 4A, the floating body 2 having the float portion 14 formed so as to surround the predetermined water area is disposed in the central portion of the closed water area 1, and the light shielding member 15 is covered so as to cover the predetermined water area. Is arranged, and a plurality of water flow generating means 3 are arranged at the edge. The floating body 2 shown in FIG. 4A has a float portion 14 in which the floating body 2 shown in FIGS. 2 and 3 has a shape in which one end and the other end are joined so as to surround a predetermined area and surround the predetermined water area. And a partition wall portion 16 extending from the float portion 14 toward the bottom of the water shown in FIG. 4B and a weight portion 17 disposed below the partition wall portion 16. The partition wall portion 16 shown in FIG. 4B has a continuous structure along the float portion 14 so as to surround the surface layer portion of the predetermined water area. Further, a light shielding member 15 is disposed on the water surface of the predetermined water area surrounded by the float portion 14 so as to cover the water surface of the predetermined water area.
[0039]
The float portion 14 shown in FIG. 4 is manufactured from the above-described material that floats on water, and can be manufactured by bonding a predetermined length by bonding or welding one end and the other end. The predetermined water area is blocked from the flow path 4 by the partition wall portion 16 and there is no flow, so that agitation is likely to occur. Therefore, the light shielding member 15 is disposed on the water surface so as to cover the water surface of the predetermined water area in order to block the light required for the generation and multiplication of the baby. Any material can be used as the light shielding member 15 as long as it can shield light. In the present invention, the same material as the partition wall portion 16 can be used as the light shielding member 15. Further, the light shielding member 15 can be integrated with the silt fence by bonding or welding to the float portion 14.
[0040]
With reference to FIG. 1 again, the water contamination suppression method of the present invention will be described. A floating body 2 composed of a frame 5 in which a planting base is placed in the central portion of the closed water area 1 and on the surface layer portion of the stored water is disposed. The floating body 2 is in a state of floating on the water surface, and anchor wires 8 disposed at four corners are stretched toward the bottom of the water and are fastened to the anchors 7 installed on the bottom of the water, and the floating body 2 is moored. At this time, aquatic plants can be planted on the planting base. A plurality of water flow generating means 3 are arranged at predetermined intervals at the edge of the closed water area 1 and on the surface layer of the stored water. The water flow generating means 3 is installed on the same floating member as the frame 5, and the water flow generating means 3 is moored at a predetermined position by an anchoring member such as an anchor and an anchor wire. In the flow path 4 formed by arranging the floating body 2, the individual water flow generating means 3 are arranged so that water circulates in a certain direction. Specifically, it arrange | positions so that the discharge port 18 of a submersible pump may face the circulation direction.
[0041]
Next, the water flow generating means 3 is operated to generate a water flow, and the water in the surface layer portion is circulated in the flow path 4. By this circulation, a flow is generated from the edge of the closed water area 1 toward the floating body 2 disposed in the center, and is caused to collide with the floating body 2. The collided water is prevented from returning toward the edge due to the water stream that is gradually rushed, and does not flow in both directions toward the floating body 2, and flows in the bottom direction along the side of the floating body 2. . The water that flows toward the bottom of the water diffuses as shown in FIG. 1C and flows toward the arrow C or arrow D. As described above, since the water flowing toward the arrow C has a similar flow in the flow path 4a on the opposite side via the floating body 2, it is pushed back by the flow indicated by the arrow E, resulting in In the direction of the arrow D, the water circulation is also formed in the cross section of the flow path 4.
[0042]
In addition to the circulation of water in the closed water area 1, nutrients such as phosphorus and nitrogen in the water are also absorbed by aquatic plants. Aquatic plants absorb these nutrients from roots immersed in water and use the nutrients for their own growth. In addition, the roots immersed in water and the part adjacent to the water surface of the planting base have almost no flow of water, and it is easy to capture nutrients. Water contaminants are removed. Furthermore, since the water area covered with the floating body 2 is shielded from light, the occurrence of the chin is suppressed in the water area.
[0043]
In the system of the present invention, as described above, one floating body 2 is arranged at the central portion of the closed water area 1, and a plurality of water flow generating means 3 are arranged at the edge of the closed water area 1. Although it is preferable to generate an appropriate flow as a whole, the present invention is not limited to this, and the configuration shown in FIGS. 5 and 6 can also be adopted. In the embodiment shown in FIGS. 5 and 6, two and three floating bodies 2 are arranged. However, in the present invention, four or more floating bodies 2 may be arranged.
[0044]
FIG. 5 is a view showing a fifth embodiment of the water pollution control system of the present invention. In the embodiment shown in FIG. 5, the same two as the floating body 2 shown in FIG. 1 are arranged, and the same as the water flow generating means 3 shown in FIG. Are arranged. In the water area 19a on the side where the floating body 2a is arranged and the water area 19b on the side where the floating body 2b is arranged, the plurality of water flow generating means 3 respectively set the discharge port 18 in a predetermined direction so as to generate a water flow in a predetermined direction. It is arranged toward. In the embodiment shown in FIG. 5, the water flow generating means 3 is arranged along the directions of the arrow line I and the arrow line J, respectively. The water flow is generated in the directions indicated by the arrow I and the arrow J. Between the floating body 2a and the floating body 2b, the water flow generating means 20 is disposed separately from each other, and the water flowing in the directions indicated by the arrow I and the arrow J merges, and the water flow generating means It flows toward 20. Further, the water flow generated by the water flow generating means 20 collides with the shore portion of the closed water area 1 and branches into the water area 19a and the water area 19b. In the embodiment shown in FIG. 5, as described above, a flow circulating around the floating bodies 2a, 2b is formed in the water area 19a and the water area 19b. In addition, since the water flow generation means 3 and 20 are spaced apart from the floating bodies 2a and 2b, the flow toward the floating bodies 2a and 2b is also generated by the generated water flow. In the embodiment shown in FIG. 5, the flow toward the floating bodies 2a and 2b causes water to collide with the floating bodies 2a and 2b, thereby generating a flow directed toward the bottom of the water, and circulating the water remaining in the water and the bottom of the water. ing.
[0045]
FIG. 6 is a view showing a sixth embodiment of the water pollution control system of the present invention. The embodiment shown in FIG. 6 is configured using the floating body 2 and the water flow generating means 3 similar to the embodiment shown in FIG. 5, but there are three floating bodies 2, and further, the water areas 19 a and 19 b In between, the embankment parts 21a and 21b which protrude from the shore part of the closed water area 1 are provided between the water area 19b and the water area 19c. The dike portions 21a and 21b are provided to reduce the collision of water flows and to appropriately perform water circulation in each of the water area 19a, the water area 19b, and the water area 19c. The levee portions 21a and 21b are substantially triangular and can be constructed of concrete. Moreover, the embankments 21a and 21b can be constructed according to the number of floating bodies 2 arranged so as to face both banks. In the embodiment shown in FIG. 6, a plurality of water flow generating means 3 are arranged in an appropriate direction so that water circulation can be appropriately performed in each of the water areas 19a, 19b, 19c. In FIG. 6, the water flows are in the directions indicated by the arrow line I, the arrow line J, and the arrow line k, respectively. In addition, the flow of the water which collided with the floating body 2 is the same as the flow shown in FIG.
[0046]
Although the present invention has been described based on the embodiment shown in the drawings, the present invention is not limited to the above-described embodiment, and a floating body is arranged in the closed water area to flow into the closed water area. Any structure, shape, and material of the floating body and the water flow generating device may be used as long as the water flow generating device is disposed away from the floating body and the water flow generating device is generated only in the surface layer portion. It can be applied. In addition, the present invention can add necessary devices in addition to this configuration. Further, in the embodiment shown in FIGS. 5 and 6, the floating body 2 shown in FIG. 1 is used, but in the present invention, the structure using two or more floating bodies 2 shown in FIGS. It can also be.
[0047]
【The invention's effect】
As described above, the water pollution control system of the present invention effectively suppresses the generation of pollutants such as ash caused by rising water temperature in summer, and is inexpensive in a closed water area such as a lake. Can be provided. Moreover, the water pollution control method of the present invention makes it possible to effectively and easily suppress the generation of pollutants.
[0048]
In addition, the water pollution control system of the present invention can be operated remotely, facilitating water quality management of lakes and ponds, etc., and further, since the device configuration is simple, maintenance is easy. Furthermore, since the water flow can be generated only in the required time and at the required time to generate the flow in the entire closed water area, the running cost can be suppressed.
[Brief description of the drawings]
FIG. 1 is a diagram showing a first embodiment of a water pollution control system of the present invention.
FIG. 2 is a diagram showing a second embodiment of the water pollution control system of the present invention.
FIG. 3 is a diagram showing a third embodiment of the water pollution control system of the present invention.
FIG. 4 is a diagram showing a fourth embodiment of the water pollution control system of the present invention.
FIG. 5 is a diagram showing a fifth embodiment of the water pollution control system of the present invention.
FIG. 6 is a view showing a sixth embodiment of the water pollution control system of the present invention.
[Explanation of symbols]
1 ... Closed waters
2 ... Floating body
3 ... Water flow generation means
4, 4a ... flow path
5 ... Frame
6 ... hole
7 ... Anchor
8 ... Anchor wire
9 Float part
10 ... partition wall
11 ... Weight part
12 ... staying part
13 ... Decomposition and removal device
14 ... Float
15 ... Light-shielding member
16 ... partition wall
17 ... Weight part
18 ... Discharge port
19a, 19b, 19c ...
20 ... Water flow generating means
21a, 21b ... Embankment

Claims (10)

A system that suppresses contamination of the stored water by generating a flow of water in the closed water area,
At least one floating body arranged in a central part of the closed water area and floated on a surface layer of the stored water stored in the closed water area ;
A plurality of water flow generating means that are arranged at the edge of the closed water area and are immersed in the surface layer portion separated from the floating body, and generate a water flow in a channel formed around the floating body by the arrangement of the floating body Including
A flow is generated toward the floating body by the water flow generated by the plurality of water flow generating means arranged around the floating body, and a flow toward the bottom of the water is generated by the collision with the floating body. Water pollution control system. The floating body is a floating island with a planting栽基plate, thereby removing by absorbing water of nutrients, characterized by shielding a body of water in which the covered by the floating body of the closed water area, to claim 1 The water pollution control system described. The floating body is a silt fence composed of a float part that floats on the water surface, and the partition portion extending toward the bottom of water from the float portion, the weight portion and disposed below the partition wall, in claim 1 The water pollution control system described. The saw further including an arrangement to be light shielding member to cover the water surface in the central portion of the closed water area, the float part is attached to the periphery of the light shielding member, pollution control system of water according to claim 3. The system electrolyzes water to generate oxygen and hydrogen bubbles to remove pollutants at the corners of the closed water area, and the bubbles float and collect the contaminants on the water surface for recovery. The water pollution control system according to any one of claims 1 to 4 , further comprising a device. A method for suppressing contamination of the stored water by generating a water flow in the stored water in a closed water area,
A step in which the the central portion of the closed water areas, and smiling least one floating on the surface layer portion of the reservoir water stored in the closed water area disposed to form a flow path around the floating body,
A step of immersing a plurality of water flow generating means at an edge of the closed water area and spaced apart from the floating body , and generating a water flow in the flow path formed around the floating body; Including
A flow is generated toward the floating body by the water flow generated by the plurality of water flow generating means arranged around the floating body, and a flow toward the bottom of the water is generated by the collision with the floating body. , Water pollution control method. The floating body is a floating island with a planting栽基plate, thereby removing by absorbing water of nutrients, characterized by shielding a body of water in which the covered by the floating body of the closed water area, to claim 6 The water pollution control method of description. The floating body is a silt fence composed of a float part floating on a water surface, a partition part extending from the float part toward a water bottom, and a weight part disposed at a lower part of the partition part. The method according to claim 6 , wherein the flow is generated along the water flow. The floating body further includes a light shielding member that blocks light, the float portion is attached around the light shielding member, and the water surface of the central portion of the closed water area is covered by the light shielding member , The method for suppressing contamination of water according to claim 8 . The method further includes the step of removing contaminants at the corners of the closed water area by electrolyzing the water to generate oxygen and hydrogen bubbles, and then collecting the contaminants by floating on the water surface. The water contamination suppression method according to any one of claims 6 to 9 .

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