KR100936089B1 - Sludge disposal method and apparatus for seperating sludge and water from underwater-sediment - Google Patents

Abstract

PURPOSE: A sludge disposal method for separating sludge and water from underwater-sediment and a sludge disposal device therefor are provided to reduce the quantity of sludge deposit by 1/30~1/60 by separating a sludge layer with a moment coagulant rapidly. CONSTITUTION: A sludge disposal method for separating sludge and water from underwater-sediment includes the following steps of: transferring sludge deposit with a sludge deposit separating unit after pushing the sludge deposit to an outlet of a housing center part; recycling clean water to a lake or a lotus pond after collecting the coagulant in a narrow part; and discharging the collected coagulant to a coagulant reservoir with the transfer pressure of screw blades(54).

Description

Sludge disposal method and apparatus for seperating sludge and water from underwater-sediment for separating sludge from water and sludge from underwater sediment

The present invention relates to a sludge treatment apparatus for separating water and sludge from sludge sediment deposited in water, and more specifically, sediment deposited on the bottom of an artificial lake or a golf course pond (hereinafter, collectively referred to as a sludge sediment). The present invention relates to a sludge treatment method in which a sludge sediment is agglomerated by administering a flocculant after inhalation and collection, and the sewage sludge is treated separately and the purified water is supplied to a lake or pond.

In general, sedimentary sludge is formed on the bottom of rivers, lakes, ports, or ponds due to untreated sewage, contaminated dust, or industrial waste, which is called sludge sediment. .

The generation of sludge deposits increases the air pollution, and various minerals and organics flow into artificial lakes or golf course ponds, forming sludge sludge, and increasing water pollution. Such sludge deposits are particularly ponds with little or no flow of water. For example, it occurs more severely in artificial lakes and ponds of golf courses.

Generally, when sludge sediment is present in the artificial lake or pond about 2 to 5%, the water becomes dirty, and the precipitates in which organic and inorganic materials are mixed settle to the bottom or float to the top, which increases water pollution. If left unattended, the organism will be unable to survive, and if it is not collected and removed quickly, the entire lake or pond will become rotten water.

Conventionally, methods for removing the bottom sludge of an artificial lake or a pond have been disclosed. Most of the prior arts remove the sediment at the bottom of the artificial lake or the pond and send it to an external sludge treatment facility. Since the conventional system has been provided as a system for supplying new water, the conventional system has to supply new water continuously to maintain the cleanness of the artificial lake or pond, resulting in an increase in the amount of water used, thereby increasing maintenance costs. In addition, there is a need for improvement measures in terms of resource management in Korea, which has recently been designated as a water shortage country.

In addition, in the prior art, a sludge treatment device for recovering purified water by pumping sediment sludge that has been submerged in water has been partially presented, but the navel is more than a stomach because the utility installation cost for saving water is simply too high. It was a system that did not find a great efficiency, and sludge removal was not as effective as the investment cost. Until now, a system that separates water and sludge from underwater deposited sludge and supplies purified water back to a lake or pond is practically used for application. It seems that there is no way.

Applicant has developed the technology of removing the sludge layer of the sludge sediment in the water, and registered patents No. 0451031, No. 0378981, No. 0729843, currently applied in Ilsan Lake Park, etc., the sludge applied in the patent technology When explaining the operation state of the sludge treatment system, first, the worker moves the sludge dredger to the position where the sludge is to be removed, and when the sludge is removed from the water, the sludge collection device is lowered to the sludge layer. The collection device has a brush and dredging pump rotary hydraulic motor and an outlet, and the brush is rotated in one direction while sweeping the sludge deposits accumulated on the bottom surface inward. Dredge sludge pump rotary hydraulic motor collects sludge collected to one side through discharge hose connected to inlet port. Chemistry underwater sludge by a method for discharging a treatment plant there is disclosed a batch system, the removal work is made.

In addition, the portable sludge suction device, which is provided in a simpler configuration, is composed of a suction part and a driving part, and the suction part forms a housing in a semi-circular cap type, and a sludge anti-hazard pad is installed around the housing and interlocked with a hydraulic rotary motor inside the housing. The rotating brush is installed to clean and sweep the sediment on the bottom of the water at low speed, and the sludge deposit is pushed toward the outlet of the center of the housing.The outlet is discharged to the purification treatment facility through the hose. Is disclosed.

However, even if the above-mentioned technology is a sediment collected inside the housing of the underwater bottom, the actual sludge amount is about 1/30 to 1/60, and the remaining amount is made of muddy water. It also had a double burden of having to fill a lake or pond with new water supply as much as discharged water.

However, due to the recent global warming and drought, water resources are insufficient and the price of water increases, so sludge deposits occur in the range of 2 ~ 5% in artificial lakes or golf course ponds. It is an invention that was started by recognizing the problem that needs to be improved because the economic loss is heavy to send to the external purification treatment facility.

The present invention is a sludge sediment adsorption means and sludge sedimentation method having a sludge sediment adsorption means and sediment sedimentation and transport means to remove sludge sediment accumulated on the bottom of the underwater, using a brush while moving the collection device to the sludge sediment deposited on the water surface. While brushing the floor, the sludge sediment is continuously discharged and removed.However, the sludge sediment collected in the housing of the collecting device is not discharged to the purification treatment facility. Instead, the flocculation sediment is rapidly aggregated by using a coagulant. Oni sedimentation, which functions to separate from the wastewater, is sent to a separation tank, and only flocculant formed by flocculant reaction by flocculant reaction is sent to the purification treatment facility, and the unaggregated clear water is reduced to circulating water recycled to a lake or pond. The amount delivered to the facility can be reduced from 1/30 to 1/60. It has an object to provide a sludge treatment method and apparatus.

As a means for solving the above problems, the sludge removal system of the present invention is a technique that can be applied in the field of removing sludge deposits stacked on the bottom of an artificial lake or a pond that artificially supplies water, and a sludge deposit adsorption means. It can be applied to sludge sediment treatment method with sludge sedimentation and separation means.

The sludge deposit adsorption means may be applied to a variety of conventional methods, but in the present application, the adsorption part forms a cap-type housing to form the sludge deposit adsorption unit, and a sludge anti-hazard prevention pad is installed around the housing and rotates hydraulically inside the housing. A brush that rotates in conjunction with a motor is installed to sweep the sediment from the bottom of the water to one side at a low speed, and pushes the sludge deposit toward the outlet of the center of the housing and transfers the sludge deposit collected at the outlet to the sludge sedimentation tank.

Oni sedimentation and separation means applied in the present application can be applied to the sedimentation and sedimentation tank having a sedimentation part and a narrow part at the top, so that the sludge sediment flowing into the sedimentation part is reacted with the instant flocculant to be settled and contacted with the flocculant. Afterwards, the clear water that has not settled down is operated as a system that recycles to the lake or pond through the overflow wall of the last bulkhead, and in the narrow part of the sludge sedimentation tank, the aggregate that has settled to the bottom by reacting with the coagulant is collected. The lower part may be provided with a conveying device to achieve the object of the present invention by a method of discharging only the aggregates separately.

Therefore, in the conventional method of treating sludge sediment, a method of discharging all the bottom sediments collected in the housing to a purification treatment facility has been applied. In the present application, only flocculant formed by flocculant is transferred to the purification treatment facility. It has the effect of providing a sludge treatment method that can reduce the amount to 1/30 ~ 1/60.

The sludge sediment adsorption means applied herein is performed in the water, the sludge adsorption method is carried out in the water using the techniques such as the registered patent No. 0451031, 0378981, 0729843, etc. as the applicant's pre-registered patent technology. As a mechanism for sucking sludge sediment that sinks to the bottom of the water, for example, the sludge adsorption portion forms a cap-type housing, and the sludge sediment which floats inside the housing is installed by installing a sludge anti-hazard pad around the outer periphery of the housing. In order to prevent scattering, the inside of the housing is installed with a brush that rotates in conjunction with the hydraulic rotary motor to sweep the sludge deposit on the underwater bottom at one side at a low speed, and to collect the sludge deposit toward the outlet of the center of the housing. Sludge deposits collected inside the housing in connection with the The sludge settling device, which is a retrieval device, forms a system for sending to the separation tank.

Oni sedimentation and sedimentation tank newly provided herein may be provided in a barge of the water or a configuration that is provided on the land work is performed, the oni sedimentation and sedimentation tank has a narrowing part to the upper part and the sedimentation part, the sedimentation part is a zigzag type Sludge deposits with multiple bulkheads zigzag through multiple bulkheads to provide time and space for contact with the instant coagulant, while the last bulkhead is provided with a overflow plate to provide clear water that does not settle after reacting with the flocculant. It is recycled back to the water through the flow wall.

The narrow part of the sludge settling / separation tank reacts with the instant flocculant so that only floc aggregates formed by flocs are collected and accumulated along the inclined surface, and is provided integrally with the sludge settling / separation tank or provided as a separate device. When the aggregates collected in the unit are pushed to one side by the compression of the screw blade, which is a conveying device, the aggregates are stored in the aggregated sludge storage tank that stores the aggregated sludge only, and when the aggregates are filled in the aggregated sludge reservoir, the land purification treatment facility It is transported to and processed.

The instant flocculant used for flocculation of sludge sediment in the sludge sedimentation tank of the present application can be used without limitation as the flocculant that satisfies the conditions that cause rapid sedimentation in contact with the sludge sediment layer but does not affect the organisms of the ecosystem. The present invention is an ion coagulant (polymeric coagulant supply source: 1698-15, Seocho-dong, Seocho-gu, Seoul, Korea), which is provided as a polymer ion coagulant in the course of experiments using various coagulants. In case of purchasing inorganic coagulant KWON) or adding the coagulant sediment from 0.1 to 0.01w% of the amount of sludge deposit flowing into the ion coagulant from Samgu Chemical Co., Ltd. Oni sedimentation and sedimentation tank forms a number of bulkheads as If the sediment sediment is only 10 seconds or more to secure the time and space for contact with the coagulant is confirmed that the sediment sediment layer is floccated within 10 seconds and settles to the ground within 20 seconds, The invention is confirmed to achieve the purpose of.

Therefore, the present invention was converted into a system for transporting only flocculated aggregates to the purification treatment facility as a result of discharging all the sludge deposits collected in the housing to the purification treatment facility. Reduced to 1/60, clear water that does not settle after contact with the coagulant can be recycled back into the lake or pond.

The present invention is artificially supplying water such as artificial lakes or golf course ponds, while cleaning the floor by brushing the sludge sediment deposited on the bottom surface of the underwater simply by moving the collection device to prevent water pollution, the sludge and underwater Instead of discharging sediment continuously, it is not a method of discharging all sludge sediment collected inside the housing of the collecting device to the purification treatment facility as in the prior art, but using a coagulant to rapidly agglomerate the sludge layer to separate it from water. By providing a sludge treatment apparatus that can reduce the amount of water transported to the purification treatment facility to 1/30 ~ 1/60, it has the effect of saving water resources.

Hereinafter, one embodiment for implementing the technical idea according to the present invention will be described with reference to the accompanying drawings, terms or words used in the specification or claims of the present application are to be interpreted limited to the ordinary or dictionary meaning No, the protection scope of the present application should be interpreted as meanings and concepts in accordance with the technical spirit of the invention, and also the embodiments presented in the examples of the present application is only one application for achieving the object of the present application It is not intended to represent all of the technical spirit of the present application, and it should be understood that there may be various equivalents and modifications that may substitute them at the time of the present application.

Figure 1 shows an example of the sludge sediment adsorption means that can be adsorbed and discharged sludge sediment deposited in the water applied to the present application, Figure 1a is the driver's own steering wheel (16) ), While controlling the rotational speed of the brush (11) with the control panel (17), it is a simple structure that can be operated safely in the form of simply orientating according to the wheel (15) that is manually advanced according to the rotation of the brush. The adsorption apparatus 20 is shown, and FIG. 1B shows the inner structure of the housing of FIG.

The sludge suction device 20 is a structure surrounded by a sludge anti-hazard pad 13 surrounding the outer periphery of the housing 12 so that sludge deposits generated therein around the housing 12 are not leaked to the outside. ) Inside the brush 11 is rotated to one side in conjunction with the brush rotary motor 14 to sweep and wipe the sludge sediment on the bottom of the underwater and to drive toward the discharge port 18, the collected sludge sediment is transported by a pump provided separately It can be applied in a configuration that is pumped into the sedimentation.separation tank by the hose 19.

Sludge adsorption means for collecting and discharging sludge sediment in the present application can be applied to any number of modifications using techniques such as patent registration No. 0451031, 0378981, 0729843, etc., as the applicant's pre-registered patent technology, In the present application, various conventional methods of the sludge deposited on the bottom surface of the water may be applied, and this is to be implemented in a sludge sedimentation tank to react with the instant flocculant to rapidly separate the technology.

2 shows a transfer device 50 for discharging aggregates collected in the sludge settling / separation tank 30 and the sludge settling / separation tank provided herein, and an inlet portion 31 of the sludge settling / separation tank 30 is provided. The sludge sediment is introduced from the sludge suction device 20, the instantaneous flocculant storage tank 40 is provided on the upper side of the sludge settling and separation tank 30, and the sludge settling and separating tank according to the control of the flow control valve 41. At 30, a coagulant is administered to rapidly agglomerate the sludge deposit.

The upper part of the outer cylinder 32 of the sedimentation sedimentation tank has a function of the settling part, and time and space where turbid sediments introduced with a plurality of partitions 33 pass through the plurality of partitions 33 in a zigzag manner and come into contact with the flocculant. After the last bulkhead, the overflow plate 34 is provided at the exit, and the clear water, which does not settle even after reacting with the coagulant, is recycled through the drain line 35 which is recycled back into the water through the overflow wall 34. do.

Oni sedimentation. The upper part of the separation tank 30 has a sedimentation part (bulk wall), an inclined surface 36 in the middle part, and a narrow part 37 in the lower part of the sludge. It flows down along the inclined surface 36 and collects in the narrow portion 37 and has a flow sent to the transfer device 50 through the aggregate discharge port 38.

In the present application, the transfer device 50 provided at an intermediate position to transfer the aggregates generated in the sludge sedimentation / separation tank 30 to the purification treatment facility receives the aggregates from the inlet 51 and is driven by the motor M. The aggregate is discharged to the outside by being pushed by the compression blade 54 of the rotating shaft 53 which rotates inside the cylinder 52, and the motor M is provided with a reducer 55 to adjust the rotation speed. It is possible to transfer the aggregates to the purification treatment plant.

3 is a perspective view showing a configuration in which the sludge settling. Separation tank 30 shown in FIG. 2 and the transfer device 50 for discharging the aggregates collected in the sludge settling. Separation tank are connected, and FIG. The front view of the (30) is shown, Figure 4b shows a top plan view of the sludge settling. Separation tank (30).

In FIG. 3, the sludge settling / separation tank 30 provided herein has a turning screw 56 on one side of the inlet port 51 of the transfer device 50, and the aggregate discharge port 38 of the sludge settling / separation tank 30. In Figure 4 shows an application that can easily combine the sludge settling. Separation tank 30 and the transfer device 50 by providing a coupling groove 39, Figure 4a is the bottom of the sludge settling. On one side of the sludge sedimentation and sedimentation tank sedimentation sedimentation tank (30) in the configuration having an internal sight glass (42) for checking the state of retention of aggregates inside the separation tank and the control valve 43 to control the discharge. 4b shows that the turbid sediment entering the inlet 31 of the sludge settling.separation tank passes through the zigzag partition 33 through the top plan view of the sludge settling / separation tank. Sedimentation time is ensured even after the reaction with coagulant It is shown that the clear water that is not made can be recycled through the drainage line 35 which is recycled back into the water through the overflow wall 34.

Therefore, the present invention is intended to be applied to the sludge sediment treatment method comprising the sludge sediment adsorption means, sludge sediment separation means and transport means to remove the sludge sediment stacked on the bottom of the artificial lake or pond artificially supplying water By, sludge sediment adsorption means has a sludge sediment adsorption unit, the adsorption unit forms a cap-type housing, and the sludge anti-hazard prevention pad is installed around the housing, and inside the housing is installed a brush that rotates in conjunction with the hydraulic rotary motor The sludge sediment of the submerged bottom to the side to sweep to the discharge port of the center of the housing and to collect the sludge sediment collected in the outlet to the sludge sediment separating means, the sludge sediment separating means having the upper sediment and the lower narrow portion. The configuration associated with the separation tank, flocculant storage tank and the transfer device The flocculant in which the flocculant is introduced into the sludge sediment that enters the sedimentation sedimentation tank, passes through the zigzag-type bulkhead and forms flocs, gathers in the bottom narrow part through the slope, and does not settle even after reacting with the flocculant. Is recycled to the lake or pond through the overflow wall, and the aggregates collected in the lower narrow part of the sludge sedimentation tank are discharged to the aggregate storage tank by the transfer pressure to the blade of the screw, which is the transfer means. It is possible to provide a method for treating sludge sediments comprising a, and preferably using an instant agglomerate selected from trade name: inorganic coagulant KWON or trade name: HIBP, AHCS 2020 to rapidly flocculate the sludge sediment. Can be achieved.

1: Application example of the sludge sediment adsorption means applied herein.

Figure 2: Example of application of sedimentation settling. Separation tank and the transfer device provided herein.

3 is a perspective view showing a connection structure of the sludge settling separator and the transfer device of FIG.

Figure 4a: Oni sedimentation.

Figure 4b: Oni sedimentation.

******* Explanation of symbols on the main parts of the drawings *****

11: brush 12: housing

13: oni haze prevention pad 14: brushless rotating motor

15: driving wheel 16: steering wheel

17: control panel 18: outlet

19: transfer hose 20: sludge adsorption device

30: sludge settling and separation tank 31: sludge settling and separation tank inlet

32: sludge settling and separation tank outer cylinder 33: bulkhead

34: overflow plate 35: drainage line

36: slope 37: narrow portion

38: aggregate discharge port 39: coupling groove

40: instant coagulant storage tank 41: flow control valve

42: internal sight 43: discharge control valve

50: feeder 51: feeder inlet

52: feed cylinder outer cylinder 53: rotating shaft

54 blade blade 55 speed reducer

56: turning screw

Claims (3)

In the sludge sediment treatment method comprising sludge sediment adsorption means, sludge sediment separation means and transport means for removing sludge sediment deposited on the bottom of the artificial lake or pond artificially supplying water, The sludge sediment adsorption means has a sludge sediment adsorption unit, the adsorption unit forms a cap-type housing, and a sludge-preventing pad is installed around the housing, and a brush that is rotated in conjunction with a hydraulic rotary motor is installed inside the housing. Sweeping the sludge deposit to one side and pushing it toward the outlet of the center of the housing and transferring the sludge deposit collected at the outlet to the sludge deposit separating means; The sludge sediment separation means has a configuration linked to the sludge sedimentation tank, the sedimentation tank, the flocculant storage tank, and the transfer device having the upper sedimentation part and the lower narrow part, and a flocculant is introduced into the sediment sediment flowing into the sedimentation sedimentation tank and the zig-zag type partition wall is formed. The floc formed through the flocculation is collected in the bottom narrow section through the slope, and the clear water that does not settle even after the reaction with the instant coagulant is recycled to the lake or pond through the overflow wall; Agglomeration sedimentation. A step of collecting the aggregates in the lower narrow portion of the separation tank discharged to the aggregate storage tank by the transfer pressure to the blade (blade) of the transfer means; Sludge sediment treatment method comprising a. The method of claim 1, The instantaneous coagulant used to aggregate the sludge sediment is a sludge sediment treatment method characterized in that using the ion coagulant (trade name: HIBP, AHCS 2020) provided by Samgu Chemical. delete

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