KR100501795B1 - A dredging system and apparatus of accamulated sludge using pressure floataition method in water area such as the sea,lakes,and rivers - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs.

The present invention relates to a sedimentation sludge dredging method and apparatus using a pressurized flotation method in a natural or artificial body of water, such as sea, river, dam, river, pond, in particular, of course, the water quality of surface water and deep water of the water to be treated, It selectively removes only contaminants in the sediment on the bottom and prevents water pollution by simultaneously washing the sand.

I. The technical problem to be solved by the invention.

The conventional method of treating contaminated sedimentary sludge was carried out by dredging sedimentary sludge in treated water and transferring it to a sedimentary sludge treatment tank provided separately on the hull of a barge or on the land adjacent to the treated water. In the latter case, a large barge is required for the installation, and in the latter case, a separate transport facility for transporting dredged sludge to the land is required, as well as difficult transportation work, and a large area for the installation of the facility was required. will be.

In addition, in the treatment of dredged sludge, only the water containing sludge is treated and the sand contained in dredged sludge is separated by simply separating and laying in the surrounding area without washing. This causes secondary pollution in the surrounding area.

Therefore, in recent years, a treatment method has been proposed to inject sedimentary sludge by directly injecting high-pressure water to the site floor of the treatment zone, and to remove the sludge by injecting the pressurized water containing the flocculating chemical in the treatment zone. The effect is limited to the surface of the bottom, and some sludge attached to the sand particles of the bottom layer is not eliminated.

All. Summary of the Solution of the Invention.

Therefore, in the present invention, in the dredging method of sediment sludge using the pressure flotation method in the field of treated water, the sewage sludge is sucked from the treated water and the sludge water and sand particles are selected, and the sludge water is pressurized from the surface of the treated water. Float by the method to purify and coat the washed sand particles on the bottom of the dredging water to purify the water quality of the contaminated water, improve the treatment efficiency of contaminated sewage sludge and deep water and at the same time, the secondary pollution source by sand particles It is to prevent the occurrence of.

la. Important use of the invention.

Dredging sediment in waters such as the sea, rivers, dams, rivers and reservoirs.

Description

A dredging system and apparatus of accamulated sludge using pressure floataition method in water area such as the sea, lakes, and rivers}

The present invention relates to a sedimentation sludge dredging method and apparatus using a pressurized flotation method in a natural or artificial body of water, such as an ocean, a river, a dam, a river, a pond, and in particular, a surface water of a contaminant and a contaminated body of water deposited on a floor to be treated. And purifying all the deep water and coating the washed sand on the bottom to prevent water pollution at the same time.

Conventionally, as a treatment method of pollutants deposited on the bottom of water such as sea, river, river, river, pond, etc., a dredging barge is equipped with facilities for handling sewage sludge on the hull. The sedimentary sludge was either purified by treatment on the hull of a barge or by a sedimentary sludge treatment tank provided by transporting dredged sludge onto the land adjacent to the water to be treated. Since all facilities for treating sludge must be installed, a large barge is required, and in the latter case, a separate transfer facility for transporting dredged sedimentary sludge to land is required, as well as difficulty in transferring. Due to the sedimentation facilities, a large area of land was needed to install the facilities. Because of the possible only if the adjacent land, there is a problem that can not be applied in the area of the wide area, such as the sea.

In addition, in the method of treating dredged sludge, the sand contained in the sludge is separated and treated only with contaminated water, so that the separated sand still contains a large amount of contaminants. Because it is re-installed in the old water or land on the land of the surrounding area as well as severely contaminated the water quality or soil of the installed area, there was a problem that causes a bad odor due to decay, causing the secondary pollution source.

Therefore, in recent years, it is possible to inject sludge by directly spraying high-pressure water to the bottom of the treated water, and to remove the sludge by pressurized flotation by injecting pressurized water containing flocculant and compressed air into the sludge. Although a treatment method has been proposed, the deeper the water depth, the higher the solubility of the gas and the smaller the size of bubbles generated from the injected pressurized water. If the work is made more than the need to supply a larger amount of pressurized water because there is a problem that the size of the equipment must be large.

In addition, even when the bottom of the sedimentation sludge is disturbed by the injection of high pressure water, and the pressurized water is injected, the fine particles resuspended from the disturbed bottom react with the flocculant supplied with the pressurized water and then float with the air bubbles. However, even in the case of organic particles having a small specific gravity, when the particle size is larger than a few mm, they do not charge on the surface of the particles. The sedimentary sludge is also mixed with sand particles having a relatively large particle size.The sand particles in the dredging process do not injure themselves due to their high specific gravity, so they are lowered immediately.Some of the sludge attached to the sand particles are not processed but remain in the sand particles. There is a disadvantage that the processing efficiency is not high.

Therefore, the present invention has been made in order to solve the above-mentioned conventional problems, the object of the present invention is to make the dredging operation using the pressure flotation method in the field of the treated water, high sedimentary sludge and contaminated deep water and surface water It is intended to prevent the generation of secondary pollutants by purifying sand with dredged soil and recoating it on the bottom of treated water at the same time.

To this end, the present invention is to be dredged sedimentation of the sludge by using the pressure flotation method in the treatment water field, while injecting high-pressure water in one side of the working area to flow the sediment and intake the sediment that is flowing from the other side After injecting pressurized water containing flocculating chemical and air into the transport channel of sediment, the first purification reaction of sediment is carried out, and then, the first purified sediment is separated into sludge and sand particles and separated from sediment sludge and sand particles. Sludge is formed to remove and remove floc by secondary purification in the water surface of the working area, and the washed sand particles are sprayed on the treated water to cover the bottom surface to increase the treatment efficiency of the sludge and contaminants from the bottom surface. To prevent elution.

Hereinafter, the sedimentation sludge dredging method in the sea, rivers, dams, rivers, ponds, etc. according to the present invention will be described in detail.

First, Figure 1 is a process opening diagram showing an embodiment of the sedimentation sludge dredging method in the sea, river, dam, rivers, ponds, etc. of the present invention, the method of dredging sludge using a pressurized flotation method in the treatment water In the predetermined area of the bottom of the treated water, and on one side of the working water 10, the high pressure water 1 is injected to deposit the sedimentary soil 2 deposited on the bottom of the treated water. And agglomerated chemicals and air are contained in the transport pipe (3) of the sediment (2) and the high-pressure water (1) while sucking the sediment (2) and the high-pressure water (1) which flows on the other side to the surface of the treated water. Pressurized water (4) is injected, and the sucked sediment and high pressure water are introduced into the sorting device (20), and the sludge water (5) and sand particles (6) are sorted. Sprayed to the surface to form agglomerates by another pressurized water 4a containing agglomerating agent and air It floats and removes it, and the sand particle 6 is sprayed in a treatment water and coat | covers a bottom surface.

In this case, the high-pressure water 1 may use external water or water in the treated water, and in particular, when contaminated deep water in the treated water is used, purification of the deep water may be simultaneously performed.

In addition, the sludge water 5 includes sludge separated from the sludge and sand particles in the high pressure water 1, and the sand particles 6 sprayed in the treated water are adhered to the sludge by the high pressure water 1. Is in a detached state.

At this time, the agitator 30 is installed at the front of the sorting device 20 so that the suctioned high-pressure water 1 and the sedimentary soil 2 are introduced into the stirring device 30 before being introduced into the sorting device 20. By agitating the sand particles contained in the sedimentary soil (2) with agitation and having a strong shear stress on the surface of the sand particles, it is possible to enhance the desorption effect of various microadhesive contaminants including sludge attached to the sand particles surface. It can be.

At this time, by installing the ultrasonic vibration device (30a) in the interior of the stirring device 30 or in the inlet pipe to the stirring device 30 to increase the separation efficiency of the sand particles and organic particles by applying the ultrasonic vibration to the sucked sediment. You can do it.

In addition, the use of a centrifugal sorting device that causes swirling flow as the sorting device 20 increases the separation efficiency of the sand particles 6 by swirling flow, thereby enhancing the sorting effect of the sludge water 5 and the sand particles 6. It is.

In addition, a stirrer 40 such as a turbine or a propeller is installed in the water into the area where the sand particles 6 are discharged from the sorting device 20, or the compressed air is injected from the outside of the water to generate disturbances in the water flow in this area. By causing the spreading of the sand particles (6) it is possible to separate the extra foreign matter remaining in the sand particles (6) to enhance the washing effect.

In addition, in the present invention, the pressurized water 4 to be injected into the transport pipe 3 of the sedimentary soil 2 is described as including only the coagulated chemical and air to be transported using a single pipe, but the pressurized air is included. The same treatment effect can be obtained by separately injecting the water pipe and the flocculant injection pipe.

In addition, if the dredging operation is carried out with a partition membrane 50 for separating the treated water from the untreated water, the treated water is prevented from mixing the treated water with the untreated water. It is possible to efficiently remove the water in the old water at the same time, according to the thickness of the sedimentation sludge layer can be divided into the water purification treatment zone and the sedimentation sludge treatment zone or work simultaneously in the same working water system.

On the other hand, by including the electrolytic water (1a) generated by the electrolysis in the high-pressure water (1) to be able to remove the dissolved organic matter contained in the sedimentation layer, this reaction is acidic water generated during electrolysis It contains oxidizing chlorine ions, such as hypochlorous acid, because when these ions enter the sedimentary layer, they can oxidize and remove dissolved organic matter contained in the sedimentary layer as well as remove odors. The organic matter adsorbed on the surface of the sand particles by chloric acid is also easily removed, thereby increasing the washing effect of the sand particles.

At this time, the amount of the electrolyzed water 1a should be supplied so that the amount of chlorine does not remain after the reaction, but even if chlorine remains, there is no problem because it is degassed and removed during the in situ pressure flotation process.

In addition, when the aluminum electrode plate is used as the electrode plate used during the electrolysis, the aluminum ions generated during the electrolysis process may act as a flocculant, thereby accelerating the removal rate of particulate contaminants.

Therefore, according to the dredging method of the sedimentation sludge as described above, by spraying the high-pressure water (1) to one side of the designated work zone, it is possible to flow the sediment soil (2) deposited to the bottom deep part of the treated water zone, and into the work zone By simultaneously dredging the introduced high pressure water (1) and sedimentary soil (2) flowing in the working water zone, the sedimentary soil (2) is introduced into the sorting device (20) while injecting the pressurized water (4) containing the coagulant and the air. 2) from the sludge water (5) containing the adherent sludge from the sand particles and the sewage sludge is removed from the washing sand particles (6). It is sprayed to the surface, and it is removed by the normal pressurization method by the coagulation reaction by another pressurized water 4a, and the contaminants in the surface water and the deep water are also removed. And, the washing of sand particles 6 is capable of preventing leaching of contaminants from the floor surface by spraying the treatment water is ever ever been coated on the bottom surface of the processing zone to form a washed sand.

Next, a description will be given of the sedimentation dredging device configured to perform the dredging work by this method.

 First, Figure 2 shows an embodiment of the sedimentation sledging device in the water, such as the sea, river, dam, rivers, ponds, etc. of the present invention, it is located on the bottom surface of the treated water space to designate the working water A sedimentation sludge composed of a main body 50 to be formed, a height adjustment control means 60 for allowing height adjustment in the treatment water, and a moving means 70 for enabling position movement in the treatment water. In the dredging device, a high-pressure water inlet transport pipe 51 for flowing the sediment is deposited on the bottom of the working water to one side to extend to the upper portion of the body portion 50, the other side is introduced Injecting the pressurized water containing the coagulant and the air into the sediment effluent transport pipe 52 and the sediment effluent transport pipe 52 for discharging the sediment containing the high pressure water to the outside of the working water and spraying it into the microbubbles. Is characterized by a pressurized water injection pipe 53 is formed.

In addition, the sedimentary soil scraper 54 having the rake 54b formed on the outer circumferential surface of the roller driving body 54a is formed at the lower portion of the main body portion 50 to further remove the sedimentary soil in the deep region. Agitator 55 is formed at the top of the a) to agitate the sand particles contained in the flowed sediment to cause collisions between the sand particles, thereby desorbing various fine adhesion contaminants including sludge attached to the sand particles surface. It is to be promoted.

In addition, the pressurized water injection pipe 53 formed in the sediment discharge pipe 52 is installed in multiple stages so that a multi-stage injection type pressurization method is possible, and at this time, the size of the nozzle formed in the injection pipe for each depth By changing the injection pressure with the more effective and excellent treatment efficiency can be obtained.

Therefore, the sedimentation sludge dredging device of the present invention configured as described above is provided with a high pressure water inlet transport pipe 51 formed at one side after designating a work area to be dredged by installing the lower part of the main body part 50 at the bottom of the treated water body. When the high pressure water is injected through), the sedimentary soil deposited on the bottom of the main body 50 is destroyed by the high pressure water flowing into the main body 50, and flows through the sedimentary soil outflow transport pipe 52 formed at the other side. If the suction of the sedimentary soil containing the high-pressure water introduced into the main body 50, the pressurized water containing the coagulant drug and air through the pressurized water injection pipe 53 formed in the sedimentary soil transport pipe 52 during the suction By spraying into the microbubbles, the adherent sludge of the sand particles contained in the sediment is separated and the sand particles are washed, and the separated sludge reacts with the flocculating chemical to form a floc, The sand particles washed as well as to facilitate the process of deposition by being ever emerging sludge is that it can be reused as a source of contamination is removed.

Figure 3 shows another embodiment of the sedimentation sludge dredging apparatus of the present invention, a solid-liquid separation chamber (80) in which the sedimented sewage sludge water and the sand particles are dredged on the upper portion of the main body portion 50 is further formed. In the center of the solid-liquid separation chamber 80, a sedimentary soil conveying pipe 81 for reinjecting the sedimentary soil sucked through the sedimentary soil transport pipe 52 is formed, and the sludge water is the upper surface of the treated water. The sludge water discharge part 82 for discharging to the water is formed, and the sand discharge part 83 for disposing the washed sand particles on the bottom surface of the treated water is formed at the lower portion thereof.

At this time, the pressurized water injection pipe 53 may be installed in the sedimentary soil transport pipe 81 instead of being formed in the sedimentary soil transport pipe 52, and the sedimentary soil transport pipe 52 and the sedimentary soil transport for improvement of efficiency. It is also possible to install in all the pipes 81.

In addition, by installing the stirrer 84 in the solid-liquid separation chamber 80 to agitate the sand particles are separated and lowered to cause a collision between the sand particles can further enhance the washing effect of the sand particles.

Therefore, the dredging device of the sedimentation sludge is further formed with a solid-liquid separation chamber 80 to easily separate the sludge water and the sand particles in the apparatus, and the separated sludge water is discharged to the surface of the treated water to pressurized flotation method. It is possible to purify by water and at the same time to be able to install the washed sand particles on the bottom surface of the treated water.

Therefore, according to the water purification method of the present invention, the dredged soil is dredged at the site of the water to be treated, and the sedimented soil is separated into sand particles from which sludge water and attached sludge are removed. The sedimentation sludge can be treated by the method, and at the same time, it is possible to prevent water from being polluted at the bottom by preventing the elution of contaminants from the bottom by forming a coating layer by using the sand particles washed at the bottom of the treated water. It can be.

1 is a process opening diagram showing an embodiment of the present invention sedimentation sludge dredging method.

Figure 2 is a schematic diagram showing an embodiment of the present invention sedimentation sludge dredging device.

Figure 3 is a schematic view showing another embodiment of the present invention sedimentation sludge dredging device.

Explanation of symbols on the main parts of the drawing

1: high pressure water 1a: acidic water

2: sediment 4, 4a: pressurized water

5: sludge number 6: sand particles

10: working area 20: sorting device

30: stirrer 40: stirrer

50: main body

51: high pressure water inlet and transfer portion 52: sediment outflow transfer portion

53: pressurized water injection pipe 54: sedimentary soil scraper

55: stirrer

60: control means

70: vehicle

80: solid-liquid separation chamber

81: sediment return pipe 82: sludge discharge section

83: sand outlet 84: stirrer

Claims (14)

delete A method of dredging sedimentation sludge using a pressurized flotation method in the field of treated water, comprising the steps of: designating a working area in a predetermined area of a bottom of the treated water; On one side of the working zone, high pressure water is injected, and on the other side, the sedimentary soil containing the inflowed high pressure water is discharged to the surface of the working zone while injecting pressurized water containing flocculating chemicals and air into the conveying line, thereby producing sludge water and sand particles. Separating; Separating the sludge water and the sand particles into the sorting apparatus, and the sludge water is sprayed to the surface of the treated water and the sand particles are separated into the bottom surface of the treated water; Injecting another pressurized water containing the flocculant and the air to the sludge water injected into the water to remove by a conventional pressurization method, the stirring device before the sorting step of the sludge water and sand particles The method of dredging sediment in waters such as installed seas, rivers, dams, rivers and ponds. The dredging method according to claim 2, wherein the ultrasonic vibration apparatus is installed in the agitator or in an inlet pipe to the agitator, and is deposited in an ocean, a river, a dam, a river, a pond or the like. According to claim 2, wherein the sand particles are discharged from the sorting device in the sea, rivers, dams, rivers, ponds, etc. where the stirrer is placed in the water or compressed air is injected from the outside of the water to disturb the water flow. Sedimentation method of dredging. delete        The method of claim 2, wherein the deep water of the treated water is used as the high-pressure water, and the sedimentation sludge dredging method in the water, such as the sea, river, dam, river, pond. 3. The method of claim 2, wherein electrolytic water produced by electrolysis of water in the treated water is used as the high pressure water. 8. The method of claim 7, wherein an aluminum electrode plate is used as the electrode plate used for the electrolysis of the high-pressure water. delete A body part 50 having a space formed therein so as to be located on the bottom surface of the treatment water so as to designate the working water, height adjustment control means 60 for allowing height adjustment in the treatment water, and treatment water In the sedimentation sludge dredging device composed of a moving means 70 to enable the position movement in the main body 50, the high-pressure water inlet transport pipe 51 is formed on one side to extend upward, Pressurized water injection pipe for injecting the pressurized water containing the coagulant and the air into the sediment discharge pipe (52) and the sediment discharge pipe (52) for discharging the sediment containing the high pressure water introduced into the injection 53 is formed so that the sludge water and the sand particles are separated from the working water, a solid-liquid separation chamber 80 in which the sludge water and the sand particles are separated is further formed on the upper portion of the main body 50. Sedimentary conveying pipe 81 is formed in the center, the sludge discharge portion 82 is formed in the upper portion, the sand discharge portion 83 is formed in the bottom, sea, rivers, dams, rivers, ponds, etc. Sedimentation equipment dredging in water area. delete 11. The dredging sludge dredge apparatus according to claim 10, characterized in that a stirrer (55) is formed on an upper portion of the main body portion (50). The pressurized water injection pipe (53) is installed in multiple stages, and the sedimentation sludge dredging in the sea, rivers, dams, rivers, ponds, etc., characterized in that the pressurized flotation method of the multi-stage injection method for each depth is possible. Device. The sedimentation sludge dredging apparatus according to claim 10, wherein a stirrer is installed in the solid-liquid separation chamber.