KR20200051298A - Removal system of harmful algal resting spore and sludge in sediments - Google Patents

Abstract

The present invention relates to a system for removing harmful algal resting spores and sludge in sediment, comprising: a ship having a driving force for moving on the water surface; a barge moving together by the ship; a dredge mover connected to the ship by a wire, moving with the ship along the seabed, mixing the sediment with chemicals on the seabed while agitating and crushing the sediment, and supplying sediment through a suction hose by a suction force provided from the barge; a sediment treatment unit installed on the barge and performing solid-liquid separation with respect to the sediment supplied from the dredge mover; and a water treatment unit receiving leachate separated from the sediment by the sediment treatment unit to separate and collect sludge, and discharging water separated from the sludge to the outside. The present invention pumps pollutants and pore water within a sedimentary layer to the barge while minimizing agitation of bottom water when removing harmful algal resting spores, vegetative cells and sludge in the sediment, treats water such as pore water through water treatment equipment installed in the barge, and changes the sediment into a solidified material such as compost, soil conditioner and landfill material, thereby safely removing the harmful algal resting spores within the sediment or the sludge like organic and inorganic materials in a reservoir or the like, and excellently treating the sediment and the pore water by using a natural coagulant in order not to cause secondary water pollution in a water zone to be treated.

Description

Removal system of harmful algal resting spore and sludge in sediments}

The present invention relates to a system of removing human spores and sludge from sediment, and more specifically, human spores of harmful algae deposited on the bottom of a reservoir (appeal), pond, estuary, farm, beam and polluted river. Minimize disturbance of bottom water in resting cell stage, vegetative cells, sediment sludge and various organic substances (deciduous decomposition products, decomposition products of animal and plant, excreta, algae human spores, etc.) While pumping to the barge, separating the sediment installed in the barge and purifying it with a water treatment device, returns the treated water back to the reservoir, and removes human spores and sludge from harmful algae in the sediment that allows the solids to be recovered to the outside. It is about.

Generally, all reservoirs (such as lakes) or ponds are deposited from the moment they are created, and as time passes, they are deposited and incubated. Substances that cause the transition of reservoirs or ponds include organic materials such as leaves and humus derived from forests and soils (sand, silt, clay, etc.), turbid water and nutrients from farmland. It is very diverse.

In addition, the amount of autochthonous organic matter gradually increases as the reservoir or pond becomes eutrophication. That is, the shallow edge of the water plant grows from spring to summer, dies in winter and deposits on the bottom of the reservoir to decompose, and some are permanently deposited to form a peat. In addition, a large bloom of harmful algae occurs in the epiliminion of the water body, and is deposited on the bottom layer of the water body after death. Most of these harmful algae have toxins, and they also cause taste and smell when consumed. Therefore, in order to suppress the mass growth of these harmful algae that are repeated every year, it is also necessary to reduce the nutrients in the influent, but appropriately use human spores (akinete, resting cell stage) and vegetative cells deposited on the bottom of the water body (reservoir, etc.). Should be removed. As such, aquatic plants, algae (human spores, vegetative cells, etc.), animal (fish, etc.) excrements, carcasses, and various organic substances are deposited on the bottom of the reservoir in the form of sludge, animal excrements, soil, etc. It causes continuous adverse effects on the aquatic ecosystem.

These sludge and animal waste, soil, etc. may generate toxic gases (H ₂ S, CH _4, etc.) during anaerobic decomposition in sediments, and large amounts of nutrients (phosphorus, Nitrogen, etc.), deteriorating reservoirs, ponds, estuaries, rivers and river ecosystems. Therefore, it is very important to properly remove sludge, animal waste, and soil from these water bodies.

In general, sediments deposited on the bottom of lakes, reservoirs, rivers, estuaries, and seas have been subject to management in terms of natural resource use, transfer, dimensions, and water transport. Dredging is a method of physically removing contaminated sediments and is commonly used in Korea to improve water quality in rivers and reservoirs. Such dredging has side effects such as increased water storage capacity of the water body, securing waterways, and preventing flooding, but various problems may occur due to dredged sediments generated during the dredging process. Nevertheless, polluted rivers and lakes (reservoirs, etc.) are dredged for the purpose of improving water quality, and the existing dredging method is as follows.

How to remove all the water from the reservoir or remove sediment from the upstream area using equipment (excavator, etc.) during drought, dredging by inserting a dredger, and creating a dredged sediment next to the water body (appeal, reservoir, etc.) After transferring and sedimenting through the drainage line with (pond), the supernatant is returned to the reservoir and the sediment is handled, the dredger and the barge are simultaneously put into the barge to transfer the dredged sediment to the barge, and the leachate flows into the reservoir as it is (overflow) and the barge There is a method of transferring only the sediment deposited on the reservoir out of the reservoir and a method of blowing compressed air to the bottom of the reservoir and removing the sludge by pressurizing it (such as installing a fence).

The following four conditions must be satisfied to safely remove sludge such as human spores and organic and inorganic substances in sediments such as reservoirs. First, dredging sediments and pumping them to the ground (such as dredgers) without disturbing deep water at the bottom of the reservoir. Second, solid-liquid separation of dredged sediments, that is, separating dredged soil and water (pore water). Fifth, purification of solid-liquid separated water (pore water) to a clean level and return to water. Fourth, it removes moisture in solid content (sedimentary sludge) and reduces it to facilitate recycling or landfill.

It is not easy to pump dredged sediments (human spores, organic / inorganic, etc.) from the bottom of the reservoir to the ground without dredging in the bottom water. If it affects deep water in the dredging process, it may act as a cause of water quality deterioration. In other words, a high degree of contamination can result in the outflow of interstitial water and the widespread diffusion of fine-grained (caused water) sediments. In addition, sedimentation sludge and water (gap water) pumped to the ground (s dredging and barge) are separated by solid-liquid separation and it is not easy to purify. Due to the nature of sedimented sludge, it can take a lot of time to settle because it is mostly water, and various contaminants such as nutrient salts and heavy metals are contained in the pore water, so that supernatant water is returned to the water body (lake, reservoir, etc.) without special treatment. In this case, there is a fear of accelerating eutrophication such as mass reproduction of harmful algae.

Korean Patent Publication No. 10-2008-0061633 (published on July 3, 2008) "Dream barge for collecting sediments in rivers"

In order to solve the above-mentioned problems with the prior art, the present invention is a technique derived to secure various disadvantages that may occur in the existing sediment dredging and treatment process, human spores, nutrient cells and sludge of harmful algae in the sediment. Contaminants (human spores, trophic cells, organic substances, etc.) and interstitial water in the sedimentary layer are pumped with a barge while minimizing disturbance of bottom water during removal, and water (such as interstitial water) is processed through a water treatment device installed in the barge. It aims to solidify sediments (compost, soil conditioners, landfill materials, etc.), thereby safely removing sludge such as human spores or organic and inorganic substances in sediments such as reservoirs.

In addition, the present invention is a chemical inorganic coagulant (aluminum sulfate (Alum), ferric chloride, so as not to induce secondary water pollution in the water body (reservoir, reservoir, estuary, farm, port, river, etc.) to be treated. The purpose is to treat sediments and pore water excellently by using natural flocculants (plant and mineral extracts, etc.) without using ferric sulfate and polyaluminum chloride (PAC), and to ensure reduction and stability for semi-equipment.

In order to solve the problems as described above, according to an aspect of the present invention, a ship having a driving force for movement on the water surface; Barges moving together by the ship; It is connected to the ship by a wire, moves along the seabed with the ship, mixes the chemical with disturbance and crushing of the sediment on the seabed, and the sediment through the suction hose by the suction force provided by the barge. The dredging vehicle to supply; A sediment processing unit installed on the barge and performing solid-liquid separation on sediments supplied from the dredge moving body; And a water treatment unit that receives the leachate separated from the sediment by the sediment processing unit to separate and collect sludge, and discharges the water separated from the sludge to the outside; including, human spores of harmful algae in the sediment And a sludge removal system.

In the barge, the leachate discharged from the sediment treatment unit is supplied to the water treatment unit through a water supply line by pumping the pump, and a generator and a hydraulic pump are respectively installed to supply power and hydraulic pressure necessary for operation, and the dredged vehicle is A chemical tank for storing supplied chemicals may be installed.

The dredged moving body is connected to the ship with a wire, and a moving body provided with a plurality of wheels for rotation on the bottom surface is rotatable; A silicon plate respectively installed at the front end and the rear end of the movable body to contact the seabed surface; Screws which are disposed rotatably in the width direction on the bottom surface of the movable body, and rotate in a state in which some or all of them are inserted into the bottom surface by the rotational force of a hydraulic motor operated by hydraulic pressure supplied from the barge through a hose. ; A chemical injection unit located at a rear side of the screw on the bottom surface of the moving body and installed downward, and spraying the chemical supplied through the hose from the barge; It is located on the bottom side of the moving body and is disposed in the width direction to be rotatably installed on the bottom side of the moving object, a plurality of steel pins are provided on the outer circumferential surface of the rotating shaft, and hydraulic pressure operated by hydraulic pressure supplied through a hose from the barge A brush that rotates in the reverse direction in the moving direction while a part or all is inserted into the bottom surface by the rotational force of the motor; And it is provided on the bottom surface of the moving body is located on the rear side of the brush to suck the sediment to be supplied to the sediment processing unit through the suction hose, the suction unit is provided with a mesh network for filtering foreign matter.

The screw, when digging and turning over the sediment, in order to collect the sediment from the lower side of the mobile body to the central side, has a spiral structure in opposite directions to each other relative to the center, the rotation axis is vertically slidingly coupled to the mobile body It is installed so that the height can be adjusted by the adjustment bar, and the height adjustment bar can be fixed to the movable body in a height-adjusted state by bolting of the fixing bolt.

The dredged moving body is connected to the ship with a wire, and a moving body provided with a plurality of wheels for rotation on the bottom surface is rotatable; A silicon plate respectively installed at the front end and the rear end of the movable body to contact the seabed surface; Homi is installed so that the bottom of the moving body is inserted into the bottom of the bottom surface in a number of rows in the width direction; An air injection unit located at a rear side of the hoe on the bottom surface of the moving body and installed downward, and spraying air supplied from the barge through a hose; A first wire nail placed on the bottom surface of the moving body and arranged vertically in a plurality in the width direction at the rear side of the air injection part, and inserted into the seabed surface; A chemical injection unit located at the rear side of the first wire nail on the bottom surface of the movable body and facing downward, and spraying the chemical supplied through the hose from the barge; A second wire nail positioned on the bottom surface of the movable body and vertically arranged in a plurality of "V" characters in the width direction at the rear side of the medicine injection part and inserted into the seabed surface with a depth smaller than that of the first wire nail; And it is provided so as to be supplied to the sediment processing unit through the suction hose to suck the sediment on the bottom surface of the moving body, the suction unit is provided with a mesh network for filtering foreign matter.

In the sediment processing unit, a support for horizontally supporting a plurality of tone bags for receiving the sediment is arranged in the barge, and a partition provided vertically on the support is installed between the tone bags. The leachate discharged from the ton bag and collected on the bottom of the hull of the barge can be supplied to the water treatment unit.

The water treatment unit may include a first treatment unit for guiding the sludge contained in the leachate to float with stirring of the leachate; A second treatment unit for allowing sludge contained in the leachate treated by the first treatment unit to be floated by the microbubbles, and guiding the microbubbles with the sludge by physical contact; And a third processing unit included in the leachate treated by the second processing unit to collect the sludge that is floated and discharged to the outside.

The first processing unit, the stirrer is installed in a large number on the path of the leachate so that the mixing with the drug is smoothly made by stirring the leachate; And a water film installed alternately with the stirrer and installed to gradually increase along the path.

The second processing unit, a micro-bubble generator for supplying micro-bubbles to the leachate passing through the first processing unit; And a plurality of inclined plates installed obliquely to gradually increase along the path on the rear side of the microbubble generator based on the path of the leachate.

The third processing unit, included in the leachate treated by the second processing unit, the inclined sludge is introduced and installed to be inclined to slide by its own weight; A conveyor configured to receive sludge from the slide and discharge it to the outside; And it may include a; discharge water recovery unit for supplying the discharged water from the slide through the transfer line to the sediment processing unit.

Further connected to the dredge moving body is connected to a wire to which the weight is installed further includes a buoy floating on the surface, a GPS module for positioning on the buoy or the ship may be installed.

According to the system for removing human spores and sludge in sediments according to the present invention, when removing human spores, nutrient cells and sludge in sediments, disturbance of bottom water is minimized, pollutants in the sediment layer (human spores) , Nutrient cells, organic substances, etc.) and interstitial water are pumped into the barge, and water (interstitial water, etc.) is processed through a water treatment device installed in the barge, solidification of sediments (compost, soil conditioner, landfill material, etc.), thereby causing the reservoir It can safely remove sludge such as human spores and organic and inorganic substances in sediments such as sediments, and prevent secondary water pollution in water bodies (appeals, reservoirs, estuaries, farms, ports, rivers, and rivers) to be treated. In order not to induce, without using chemical inorganic coagulants (aluminum sulfate (Alum), ferric chloride, ferric sulfate and polyaluminum chloride (PAC), etc.), natural coagulants (plants and Using a water extract or the like) solid and dispose of the sediment pore, and may ensure the dredging costs, and reliability.

1 is a side view showing a system for removing human spores and sludge from harmful algae in a sediment according to an embodiment of the present invention.
Figure 2 is a side view showing a barge of the human spore and sludge removal system of harmful algae in the sediment according to an embodiment of the present invention.
3 is a plan view showing a barge of a human spore and sludge removal system of harmful algae in sediment according to an embodiment of the present invention.
4 is a plan view showing a dredge moving body of a human spore and sludge removal system in harmful algae in a sediment according to an embodiment of the present invention.
5 is a side view showing a dredge moving body of a human spore and sludge removal system in harmful algae in a sediment according to an embodiment of the present invention.
FIG. 6 is a plan view showing another example of a dredge moving body of a human spore and sludge removal system in a sediment according to an embodiment of the present invention.
FIG. 6 is a side view showing another example of a dredge moving body of a human spore and sludge removal system in a sediment according to an embodiment of the present invention.
8 is a plan view showing a water treatment unit of a human spore and sludge removal system of harmful algae in sediment according to an embodiment of the present invention.
9 is a side view showing a first treatment unit in a water treatment unit of a human spore and sludge removal system of harmful algae in a sediment according to an embodiment of the present invention.
10 is a side view showing a second treatment unit in the water treatment unit of the human spore and sludge removal system of harmful algae in the sediment according to an embodiment of the present invention.
11 is a side view showing a third treatment unit in the water treatment unit of the human spore and sludge removal system of harmful algae in the sediment according to an embodiment of the present invention.

Since the present invention may have various embodiments by various changes, specific embodiments will be described by way of example in the drawings. In addition, it should be understood that the present invention is not limited to these specific embodiments, and includes all modifications, equivalents, and substitutes included in the technical spirit of the present invention.

Hereinafter, exemplary embodiments according to the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals are assigned to the same or corresponding components regardless of reference numerals, and redundant descriptions are omitted. Shall be

1 is a side view showing a system of removing human spores and sludge in sediments according to an embodiment of the present invention, and FIG. 2 is a system of removing human spores and sludge in a sediment according to an embodiment of the present invention It is a side view showing the barge.

1 and 2, the human spore and sludge removal system 10 in the sediment according to an embodiment of the present invention is a ship 100, barge 200, dredging body 300, sediment handling unit It may include a 400 and a water treatment unit 500, while the ship 100 carries the barge 200 and the dredged vehicle 300, the human spores of harmful algae in the sediment, nutrient cells and sedimentation sludge, etc. It is transferred to (200) and processed by the sediment treatment unit 400 and the water treatment unit 500.

The ship 100 has a propulsive force for movement on the surface of the water, and for this purpose, a propeller such as a propeller may be installed on the hull having buoyancy, and may be made of various types of navigational bodies sailing by a motor boat or other magnetic force. have.

1 to 3, the barge 200 is a buoyant body installed to move together by the ship 100. The barge 200 may supply, for example, leachate discharged from the sediment treatment unit 400 to the water treatment unit 500 through the water supply line 220 by pumping the pump 210, and supply power and hydraulic pressure necessary for operation. For this, the generator 230 and the hydraulic pump 240 may be respectively installed, and a chemical tank 250 for storing chemicals supplied to the dredging body 300 by pumping the chemical pump (not shown) may be installed. , Other equipment to support sediment treatment may be installed.

1, 4 and 5, the dredge moving body 300 is connected to the ship 100 by a wire 311, moves along the sea floor with the ship 100, and disturbs sediments at the sea bottom And to mix the chemicals together with the crushing, and supply the sediment of the seabed through the suction hose 362 by the suction force provided from the suction pump (not shown) of the barge 200.

The dredged moving body 300 is connected to the ship 100 with a wire 311, and a moving body 310 in which a plurality of wheels 312 for movement is provided rotatably on the bottom surface, and a shear at the bottom surface of the moving body 310, Silicon plates 320 respectively installed to contact the bottom surface at the rear end, and are disposed rotatably in the width direction on the bottom surface of the moving body 310, and are installed rotatably, and hydraulic pressure supplied from the barge 200 through the hose 371 By the rotational force of the hydraulic motor 332 operated by a plurality of screws 330 rotating in a state in which some or all of them are inserted into the seabed surface, and a plurality of widthwise directions on the rear side of the screw 330 on the bottom surface of the moving body 310 Arranged so as to face downward, the chemical injection unit 340 for spraying the chemical supplied from the barge 200 through the hose 372, and the rear side of the chemical injection unit 340 on the bottom surface of the moving body 310 Arranged in the width direction to be rotatably installed, the rotating shaft 351 A number of steel pins 352 are provided on the outer circumferential surface, and some or all of them are inserted into the sea bottom surface by the rotational force of the hydraulic motor 353 operated by hydraulic pressure supplied from the barge 200 through the hose 371. The brush 350 to rotate in the reverse direction in the moving direction, and located on the rear surface of the brush 350 on the bottom surface of the moving body 310 to suck the sediment to be supplied to the sediment processing unit 400 through the suction hose 362 It may be provided, it may include a suction unit 360 is installed a mesh network 361 for filtering of foreign matter. The chemical injection parts 340 may be connected to each other through a supply pipe 341.

Screw 330, when digging and turning over the sediment, to have the sediments gather from the lower side of the moving body 310 to the center side, the two sides with respect to the center has a spiral structure opposite to each other, the rotating shaft 331 is a moving body 310 ) Is installed to be adjustable in height by a height adjustment bar 333 that is vertically sliding and fixed, and the height adjustment bar 333 is fixed in a height-adjusted state to the movable body 310 by bolting of the fixing bolt 334 As much as possible. Here, the height adjustment bar 333 may be formed with a plurality of fastening holes to allow the fixing bolt 334 to be selectively fastened.

The dredge moving body 300 moves along the movement of the ship 100 and removes human spores, trophic cells and sediment sludge of harmful algae in the sediment and transports it to the barge 200. The movable body 310 may have four non-powered wheels 312, for example, and have a wheel axle 313 structure such that these wheels 312 are installed inside to minimize disturbance of sediment. That is, the sediments generated when the four wheels 312 are moved can be removed by suction. The dredge moving body 300 may be manufactured in a V-shape such that the front end and the rear end of the moving body 310 are inclined with the moving direction, and the silicon plate 320 is in smooth contact with the bottom surface of the sediment. Here, the silicon plate 320 at the front end is intended to minimize disturbance of sediment when the mobile body 310 is advanced, and the silicon plate 320 at the rear end is contaminant in the mobile body 310 when the mobile body 310 dredges while moving. This is to block outward diffusion as much as possible. In addition, the pointed portion of the front end of the movable body 310 is to prevent the tree branches or large stones on the bottom of the reservoir, etc., from being sucked inward when advancing. To this end, the inclined plate may be inclined on both sides.

Screw 330 when digging and turning over the sediment, so that both sides of the screw 330 facing each other in order to collect the sediment inward, thereby preventing the sediment from spreading to the outside of the moving body 310, height The dredging depth can be adjusted by the adjusting bar 333 and the fixing bolt 334. The screw 330 receives power (hydraulic pressure) from the hydraulic pump 240 in the barge 200 and rotates by the driving force of the hydraulic motor 332. At this time, the moving direction of the side contacting the seabed surface is the moving body 310. The sediment sludge can be turned over while rotating to coincide with the direction of travel.

The chemical injection unit 340 sprays a natural coagulant as a chemical, adsorbs and aggregates organic contaminants in the sediment overturned by the screw 330, and prevents these sedimented sludge from flowing out of the moving body 310. . The natural coagulant is sprayed through a chemical injection unit 340 installed in the width direction of the moving body 310, for example, through a nozzle, and supplied and adjusted by a chemical pump (not shown) from the chemical tank 250 in the barge 200 It can be done.

The brush 350 rapidly breaks the sedimentation sludge dug by the screw 330 in the moving body 310 to react quickly with the natural coagulant, and the suction hose 362 through the suction unit 360 provided with suction power of the suction pump Easy inhalation with. Most of the deposited sludge has a lot of clay components, has a large viscosity, and is lumped, so even if it is deposited overturned by the screw 330, it is not easy to inhale with the suction hose 362. Therefore, the brush 350 breaks up the deposited sludge finely so that suction is smooth. The brush 350 rotates by driving the hydraulic motor 353 that operates by receiving power (hydraulic pressure) from the hydraulic pump 240 in the barge 200 like the screw 330. It can be rotated so that the movement direction in contact with the bottom surface of the brush 350 is opposite to the screw 330. Therefore, in order to finely crush the sediment sludge dug by the screw 330, the brush 350 is rotated in the reverse direction.

The suction unit 360 is connected to the suction hose 362 corresponding to the high pressure hose, and blocks the inflow of large foreign substances (gravel, tree branches, etc.) by the mesh network 361 at the lower side thereof. On the other hand, the necessary hoses 371, 372, and 362 can be integrated so as not to interfere with the movement of the moving body 310. In the case of the pressure hose 362, one-touch valve 363 is attached at intervals of 3 to 5 m to increase or decrease depth. Desorption can be made smooth.

6 and 7, the dredge moving body 600 according to another embodiment is connected to the ship 100 (refer to FIG. 1) with a wire 611, and a plurality of wheels 612 for movement on the bottom surface are rotated The movable body 610 provided as possible, and the silicon plate 620 respectively installed to contact the seabed surface at the front end and the rear end at the bottom of the movable body 610, and the heat in the width direction on the bottom surface of the movable body 610, respectively. The hoe 630 is installed by the hoe shaft 631 so that the bottom is inserted into the seabed surface, and is arranged in a width direction on the rear side of the hoe 630 on the bottom surface of the movable body 610 and installed to face downward. , Air injector 640 for injecting air supplied from the barge 200 (shown in FIG. 1) through the hose 691, and in the width direction on the rear side of the air injector 640 on the bottom surface of the moving body 610 The first wire nail 650 which is arranged vertically and installed vertically and inserted into the sea floor, and the bottom surface of the movable body 610 A chemical injection unit that is arranged to be arranged in a plurality in the width direction on the rear side of the first wire nail 650 to face downward, and sprays the chemical supplied through the hose 692 from the barge 200 (shown in FIG. 1). (660), the mobile body 610 is located on the rear side of the chemical injection unit 660 is arranged vertically in a number of "V" in the width direction is installed vertically, to a depth smaller than the first wire nail (650) It is provided to be supplied to the sediment processing unit 400 (refer to FIG. 2) through the suction hose 682 by suctioning sediment on the bottom surface of the second wire nail 670 and the moving body 610 inserted into the seabed surface, filtering of foreign substances It may include a suction unit 680 is installed mesh net 681 for.

The dredged movable body 600 according to another embodiment is deposited in place of the screw 330 of the previous embodiment, so that the hoe 630 for flipping is installed in a number of rows 2-3. At the back of the 2-3 rows to which the hoe 630 is attached, the air injection unit 640 and the chemical injection unit 660 spray air and a natural coagulant, respectively. First and second wire nails 650 and 670 are installed at each rear end of each of the air injection unit 640 and the chemical injection unit 660 to crush the sedimentary sludge dug by the hoe 630. On the other hand, when air injection is not required, the chemical injection unit 660 may be installed at the location of the air injection port 640, and the wire nail may be configured to be positioned next.

2 and 3, the sediment processing unit 400 is installed on the barge 200 and performs solid-liquid separation on the sediment supplied from the dredge moving body 300. The sediment processing unit 400 is provided with a support 420 for horizontally supporting a ton bag 410 for accommodating sediments in the interior of the barge 200, and vertically provided on the support 420. The partition 430 is installed between the tone bags 410, and discharged from the tone bags 410 to collect the leachate collected on the bottom of the hull of the barge 200 to be supplied to the water treatment unit 500. Here, the tone bag 410 has a material or structure that allows discharge of water. The support 420 may be formed of a structure having a passage for discharging water downward while supporting the tone bag 410.

8 to 11, the water treatment unit 500 is supplied with leachate separated from the sediment by the sediment treatment unit 400 so as to separate and collect the sludge, and discharge the separated water from the sludge to the outside. To do. The water treatment unit 500 has an inlet 542 for inflow of leachate into the body 541 serving as a casing, at least one outlet 543 for discharging the deposited sludge, and for discharging water separated from the sludge. Each drain 544 may be provided.

The water treatment unit 500 includes a first treatment unit 510 that guides the sludge contained in the leachate to float with agitation of the leachate, and the sludge contained in the leachate processed by the first treatment unit 510 by micro bubbles. In addition, the sludge is included in the leachate treated by the second processing unit 520 and the second processing unit 520 to guide the floating of the microbubbles together with the sludge by physical contact, thereby collecting the sludge from the outside. It may include a third processing unit 530 to be discharged to, it may perform a chemical treatment such as a natural coagulant, if necessary. The first to third processing units 510, 520, and 530 may be divided into partitions 545 in the main body 541 and disposed in a zigzag manner, as in the present embodiment.

The first processing unit 510 is installed alternately with the stirrer 511 and the stirrer 511 installed on the path of the leachate so that mixing of the leachate with the drug is smoothly performed by stirring, and gradually increases along the path. It may include a water film 512 is installed to be high. The second processing unit 520 is a micro-bubble generator (521) for supplying micro-bubbles to the leachate that has passed through the first processing unit (510) and the microbubble generator (521) based on the path of the leachate gradually along the path. A plurality of inclined plate 522 is installed to be inclined to be high, and the third processing unit 530 is included in the leachate processed by the second processing unit 520, and the sludge inclined so that the injured sludge flows in and slides by its own weight. The conveyor 532 for receiving sludge from the receiving 531, the sliding receiving 531 and discharging it to an external collecting device or a temporary storage device or a tone bag 410, and transporting the discharged water from the sliding receiving 531 A discharge water recovery unit 533 supplied to the sediment processing unit 400 (see FIGS. 2 and 3) through a line (not shown) may be included, and a discharge port may be provided at the front end of the slide 531.

The water treatment unit 500 induces that the treated water flows downward and the sludge floats upward. In the third treatment unit 530, the treatment water may continue to flow to the intermediate layer, and the flotation sludge falls to the conveyor 532 through the slide 531. The slide 531 and the conveyor 532 are spaces separated from the space where the treated water passes so that the treated water is not contaminated by sludge. At the lower end of the slide 531, the discharged water is sent back to the tone bag 410 in the barge 200 by the discharged water recovery part 533 for discharging the water that has passed along with the sludge to undergo a reprocessing process. The sludge transferred to the conveyor 532 may be processed by sending it to the tone bag 410 in the barge 200.

Referring to Figure 1, it is connected to the dredge moving body 300, the weight 720 is connected to the wire 710 is installed may further include a buoy 700 floating on the water, such buoy 700 or A GPS module (not shown) for positioning may be installed on the barge 200 through an external terminal (not shown), and the longer the length of the wire 710 of the buoy 700, the easier it is to be positioned by the wind. The weight 720 is installed in the middle of the wire 710 to prevent movement. Due to these configurations, it is possible to easily check the current working location from the outside, thereby providing information to dredge the entire bottom area evenly of the reservoir.

According to the system for removing human spores and sludge from harmful algae in the sediment according to the present invention, contaminants in the sediment layer while minimizing disturbance of bottom water when removing human spores, nutrient cells and sludge from harmful algae in the sediment ( Human spores, nutrient cells, organic substances, etc.) and interstitial water are pumped into the barge, and water (such as interstitial water) is processed through a water treatment device installed in the barge, solidifying sediments (compost, soil improvers, landfill materials, etc.), thereby Due to this, it is possible to safely remove sludge such as human spores or organic and inorganic substances of harmful algae in sediments such as reservoirs.

In addition, according to the present invention, in order not to induce secondary water pollution of the water bodies (appeals, reservoirs, estuaries, farms, ports, rivers, and rivers) to be treated, chemical inorganic coagulants (aluminum sulfate (Alum), chloride) Without using ferric sulfate, ferric sulfate, and polyaluminum chloride (PAC), natural coagulants (plant and mineral extracts, etc.) are used to treat sediments and pore water excellently, and to ensure reduction and stability for semi-equipment.

Although the present invention has been described with reference to the accompanying drawings, various modifications may be made without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be defined by the claims, and equivalents to the claims.

100: ship 200: barge
210: pump 220: water supply line
230: Generator 240: Hydraulic pump
250: chemical tank 300: dredged vehicle
310: moving object 311: wire
312: wheel 313: wheel axle
320: silicon plate 330: screw
331: rotating shaft 332: hydraulic motor
333: Height adjustment bar 334: Fixed bolt
340: drug injection unit 341: supply pipe
350: brush 351: rotating shaft
352: steel pin 353: hydraulic motor
360: suction unit 361: mesh net
362: suction hose 363: one-touch valve
371: hose 372: hose
400: sediment processing unit 410: tone bag
420: support 430: partition
500: water treatment unit 510: first treatment unit
511: stirrer 512: water film
520: second processing unit 521: fine bubble generator
522: inclined plate 530: third processing unit
531: slide 532: conveyor
533: discharge water recovery unit 534: outlet
541: main body 542: inlet
543: outlet 544: drain
600: dredge moving object 610: moving object
611: wire 612: wheel
620: silicon plate 630: Homi
631: Homi axis 640: Air injection part
650: first wire nail 660: chemical injection unit
670: second wire nail 680: suction
681: mesh network 682: suction hose
691: hose 692: hose
700: buoy 710: wire
720: weight

Claims (8)

A ship having a driving force for movement on the water surface;
Barges moving together by the ship;
It is connected to the ship by a wire, moves along the seabed with the ship, mixes the chemical with disturbance and crushing of the sediment on the seabed, and the sediment through the suction hose by the suction force provided by the barge. The dredging vehicle to supply;
A sediment processing unit installed on the barge and performing solid-liquid separation on sediments supplied from the dredge moving body; And
It includes; a water treatment unit for receiving the leachate separated from the sediment by the sediment treatment unit so as to separate and collect sludge, and discharge the separated water from the sludge to the outside;
The sediment processing unit,
A support for horizontally supporting a plurality of tone bags for receiving the sediments is provided horizontally inside the barge, and a partition provided vertically on the support is provided between the tone bags, and discharged from the tone bag. The leachate collected in the bottom of the hull of the barge is supplied to the water treatment unit,
The water treatment unit,
A first processing unit for guiding the sludge contained in the leachate to float with stirring of the leachate;
A second treatment unit for allowing sludge contained in the leachate treated by the first treatment unit to be floated by the microbubbles, and guiding the microbubbles with the sludge by physical contact; And
Included in the leachate treated by the second processing unit is a third processing unit to collect the sludge floating and discharged to the outside; includes,
Further connected to the dredge moving body is connected to the wire to be installed weight further comprises a buoy floating on the water surface,
A system for removing human spores and sludge from harmful birds in sediments, in which a GPS module for positioning is installed in the buoy or the ship. The method according to claim 1,
The barge,
The leachate discharged from the sediment treatment unit is supplied to the water treatment unit through a water supply line by pumping of a pump, and a generator and a hydraulic pump are respectively installed to supply power and hydraulic pressure required for operation, and the chemicals supplied to the dredged vehicle are Human spores and sludge removal system of harmful algae in sediments, where a chemical tank to be stored is installed. The method according to claim 1,
The dredged vehicle,
A moving body connected to the ship by a wire and provided with a plurality of wheels for rotation on the bottom surface;
A silicon plate respectively installed at the front end and the rear end of the movable body to contact the seabed surface;
Screws which are disposed rotatably in the width direction on the bottom surface of the movable body, and rotate in a state in which some or all of them are inserted into the bottom surface by the rotational force of a hydraulic motor operated by hydraulic pressure supplied from the barge through a hose. ;
A chemical injection unit located at a rear side of the screw on the bottom surface of the moving body and installed downward, and spraying the chemical supplied through the hose from the barge;
It is located on the bottom side of the moving body and is disposed in the width direction to be rotatably installed on the bottom side of the moving object, a plurality of steel pins are provided on the outer circumferential surface of the rotating shaft, and hydraulic pressure operated by hydraulic pressure supplied through a hose from the barge A brush that rotates in the reverse direction in the moving direction while a part or all is inserted into the bottom surface by the rotational force of the motor; And
A suction unit located at the rear side of the brush on the bottom surface of the moving body to suck sediment and supplied to the sediment processing unit through the suction hose, and a mesh network for filtering foreign matter is installed;
Human spores and sludge removal system of harmful algae in the sediment comprising a. The method according to claim 3,
The screw,
When digging and turning over the sediment, in order to collect the sediment from the lower side of the moving body to the center side, both sides of the center have a spiral structure in opposite directions to each other, and the height of the rotation bar is vertically coupled to the moving body by a height adjustment bar. It is installed to be adjustable, and the height adjustment bar is fixed to the mobile body in a height-adjusted state by bolting of a fixing bolt, a human spore and sludge removal system of harmful algae in the sediment. The method according to claim 1,
The dredged vehicle,
A moving body connected to the ship by a wire and provided with a plurality of wheels for rotation on the bottom surface;
A silicon plate respectively installed at the front end and the rear end of the movable body to contact the seabed surface;
Homi is installed so that the bottom of the moving body is inserted into the bottom of the bottom surface in a number of rows in the width direction;
An air injection unit located at a rear side of the hoe on the bottom surface of the moving body and installed downward, and spraying air supplied from the barge through a hose;
A first wire nail placed on the bottom surface of the moving body and arranged vertically in a plurality in the width direction at the rear side of the air injection part, and inserted into the seabed surface;
A chemical injection unit located at the rear side of the first wire nail on the bottom surface of the movable body and facing downward, and spraying the chemical supplied through the hose from the barge;
A second wire nail positioned on the bottom surface of the movable body and vertically arranged in a plurality of "V" characters in the width direction at the rear side of the medicine injection part and inserted into the seabed surface with a depth smaller than that of the first wire nail; And
A suction unit which is provided to be supplied to the sediment processing unit through the suction hose by suctioning sediment on the bottom surface of the moving body, and having a mesh network for filtering foreign matter;
Human spores and sludge removal system of harmful algae in the sediment comprising a. The method according to claim 1,
The first processing unit,
A stirrer installed in plural on the path of the leachate so that the leachate can be mixed with the medicine smoothly by stirring; And
A water film installed alternately with the stirrer and gradually increasing along the path;
Human spores and sludge removal system of harmful algae in the sediment comprising a. The method according to claim 1,
The second processing unit,
A micro-bubble generator that supplies micro-bubbles to the leachate that has passed through the first treatment unit; And
A plurality of inclined plates installed inclined to gradually increase along the path on the rear side of the microbubble generator based on the path of the leachate;
Human spores and sludge removal system of harmful algae in sediment comprising a. The method according to claim 1,
The third processing unit,
A sliding support included in the leachate treated by the second processing unit and installed to be inclined so that the floating sludge flows in and slides by its own weight;
A conveyor configured to receive sludge from the slide and discharge it to the outside; And
A discharge water recovery part that supplies discharge water from the sliding support to the sediment processing part through a transfer line;
Human spores and sludge removal system of harmful algae in the sediment comprising a.

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