KR101496112B1 - Septic tank sedimentation and mechanical dewatering device using dredging total water treatment system - Google Patents

Abstract

The present invention relates to a dredging soil dehydrating system using septic tank sedimentation and a mechanical dewatering device, wherein various sediments deposited on the port and the surface of inland waters can be treated using septic tank sedimentation and a mechanical dehydrating device. The dredging soil dehydrating system of the present invention comprises a dredging device for collecting various sediments deposited on a port and the surface of inland water; a reaction tank for producing a flock by adding a coagulant agent to the sediments separated through the foreign material removing device; a first purifying tank for coagulating and naturally sinking the flock from the reaction tank according to agitation time and making a supernatant flooded; a second purifying tank for re-coagulating and naturally sinking a floated material flooded from the first purifying tank and making a supernatant flooded; and a third purifying tank for re-coagulating and naturally sinking a floated material flooded from the second purifying tank, accommodating a supernatant, and passing the supernatant through a filtering device, and having a flowmeter installed therein to measure the amount of flow that passes.

Description

Technical Field [0001] The present invention relates to a dredged soil dewatering system using a septic tank sedimentation apparatus and a mechanical dewatering apparatus,

The present invention relates to a method of treating a variety of sediments deposited in harbors and inland waters using a septic tank settling and mechanical dehydration apparatus

The present invention relates to a dredged soil dewatering system using a septic tank settling apparatus and a mechanical dewatering apparatus, and a method thereof.

Dredging projects are usually being undertaken to purify polluted sediments of harbor rights.

Particularly, various sediments deposited in the harbor and inland water have been deposited with a serious degree of pollution. Accordingly, there is a demand for a dredged sediment purification apparatus capable of restoring not only the present environment but also the future environment environmentally.

In addition, the London Convention (1972), an international marine pollution prevention convention for the regulation of marine dumping of wastes and other substances, was adopted, and in 1997, a protocol was adopted to strengthen the prohibition of marine dumping, Since 2013, there has been a total stoppage of speculation in Korea, and only a limited number of items have been granted for a limited period of time.

Considering the increase of secondary pollution in the dredging process and the increase of environmental complaints against dredged sediments, the dredging system with high efficiency (hydraulic type) is desperately needed, and the dredged sediment which can be processed and recycled for real- Implementation of dehydration apparatus is urgent.

In addition, during dredging, a large amount of contaminated dredged soil occurs along with secondary contamination due to sub-pseudo-similarity. The treatment of the resulting dredged soil is carried out through a marine dumping or a landfill, and in particular, .

Regarding the inhalation of the sediment to the dredge pump, Korean Registered Patent No. 10-954151 entitled " Basal sediment removal device and its dredging method "is submerged to be positioned at the upper part of the basal sediment, and the basal sediment And sucking the sediment through a vacuum suction pipe for sucking the sediment to the lower end and discharging the sediment to the upper end.

However, there is a problem that the amount of dredging is increased by at least 10 times due to a large amount of seawater mixed in the process of dredging the sea floor sediments before dredging. The amount of dredged sediment transported through the pipeline using the dedicated pollutant collecting line is set to a minimum of 5 in the course of carrying out the sedimentation of the sediment which is not fully dehydrated, And the transportation cost is enormous when the processing site is long distance.

In addition, Korean Patent Laid-Open No. 10-2003-0005769 entitled "Classification System of Dredged Sediment and Its Classification Method" in the method of treating sediments pumped by a dredging pump has been disclosed, and dredging using centrifugal separation As a sediment purification method, the final treated water is directly discharged to sea or reservoir by dredging sediments in contaminated waters such as port harbors and inland waters.

These devices are designed to process sediment from the first stage of treatment process to process sediment to centrifugation process which uses expensive equipment. In case of high throughput, installation cost of equipment is high, installation equipment size is large, It is necessary to increase the facility investment cost and the operation cost of the equipment, so that the efficient dredging operation can not be achieved.

On the other hand, in the treatment of pumped sediments, a method of transporting sediments dredged by land adjacent to a conventionally applied water body to be processed through a separate processing apparatus is a method of transferring dredged sediments to a separate transportation facility And transporting operation are difficult, a large site is required, and there is a problem that it is impossible to process large quantity of water in the case of processing wastewater in the sea.

In order to solve some of these problems, the upper water of the first barge is transferred to the second barge, the first water is supplied through the geosynthetic frame provided on the second barge, the second integer is made using the filter, Korean Patent No. 10-1007465 entitled " Marine water and wastewater real-time water purification system "has been disclosed.

However, in the purification process, a simple screen or a sand filter is applied to filter the sediments, but there is still a problem in that large-scale processing of a large amount of marine wastewater is impossible.

Korean Registered Patent No. 10-954151 "Base Sediment Removal Apparatus and Its Dredging Method" Korean Patent Publication No. 10-2003-0005769 "Classification System of Dredged Sediment and Its Classification Method" Korean Registered Patent No. 10-1007465 "Marine Wastewater < RTI ID = 0.0 >

The present invention has been made in order to solve the above-mentioned problems. In particular, it is an object of the present invention to provide a dredging method for dredging a variety of sediments accumulated in a harbor and an inland water by dredging a dredge pump, The purpose of this is to enable the disposal of dredged sediments in large quantities at a cost.

It is another object of the present invention to discharge precipitate deposited in the lower part of a multi-stage septic tank to a carrier by using a grab mounted on a crane for efficient and low-cost treatment.

Further, another object of the present invention is to dehydrate the precipitate deposited on the lower part of the final purification tank by using a belt press, a filter press, a centrifugal separator and the like and discharge it to a carrier.

The present invention further provides an environmentally friendly and efficient purification tank settling system, a dredged soil dewatering system using the mechanical dewatering system, and a method therefor, in which a supernatant liquid passed through a final purification tank is passed through a filtration apparatus, .

According to an aspect of the present invention,

Dredging equipment to collect various sediments deposited in the harbor and inland water;

delete

delete

A foreign matter removing device for separating sediments dredred by the dredging device and various foreign substances;

A reaction tank for forming flocs by administering an aggregating agent to sediments separated through the foreign material removing device;

The floc formed in the reaction tank is flocculated according to the agitation time to perform natural sedimentation, and the supernatant liquid flows over the first purification tank;

Wherein the suspended solids overflowing in the first septic tank are re-agglomerated to form natural sedimentation, and the supernatant liquid flows over the second septic tank;

A third septic tank provided with a flowmeter for collecting the supernatant, allowing the supernatant to pass through the filtration device, and measuring the flow rate of the supernatant; And a control unit.

As described above, the dredging apparatus according to the present invention is characterized in that the sediment is transferred to the foreign material removing apparatus through the discharge pipe.

Further, the reaction tank according to the present invention is characterized in that a stirrer is provided.

In the meantime, the first purification tank according to the present invention is characterized in that a foreign matter removing device and a reaction tank are integrally provided.

In addition, flocs settled in the first and second septic tanks according to the present invention are sludgeized, pumped up by a grab provided on the crane, and loaded on a carrier conveyed to the outside.

In addition, the flocs settled in the third septic tank according to the present invention are sludged and dewatered by a belt press, a filter press, and a centrifuge, and then loaded on a carrier for transfer to the outside.

Further, the third septic tank according to the present invention has a circular shape inside and is equipped with a scrapper rotating at a low speed to collect sludge-formed flocs at a central portion.

Further, the first, second and third purification tanks according to the present invention are installed on the barge.

According to the present invention,

After collecting various sediments accumulated in the port and inland surface, the foreign matter is removed, the flocculant is added, and the flot is stirred with the float to form floc. Then, the floc and the supernatant are transferred to the first purification tank to settle the pollock. A first purifying step for purifying the exhaust gas;

Among the supernatant transferred to the first purification step, the suspended matter flocculates and flocculates naturally; the second purification step to float the supernatant;

A third purging step of floatation of the supernatant transferred to the second purification step to produce flocs after flocculation, flocculation of the flocculates, flocculation of the supernatant and filtration of the overflow supernatant; And a control unit.

In the present invention, the floc discharging step may take out the floc settled in the first, second and third purifying steps, dehydrate and discharge the floc; And further comprising:

According to the present invention, dredging of various sediments deposited in the harbor and inland water is performed by a dredging pump, and the dredged sediment transferred through the discharge pipe is treated in real time using a foreign material removing device, a reaction tank, a plurality of septic tanks, There is an effect that can be achieved.

In addition, the present invention provides a scrapper rotating at a low speed so as to collect sediments deposited at the center by using a circular third separating tank, so that sediment deposited on the bottom of the sedimentation tank rotates at low speed during operation, The effect of treating the precipitate occurs.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a dredged soil dewatering system using a septic tank settling apparatus and a mechanical dewatering apparatus according to the present invention; FIG.
2 is a schematic view showing an internal state of a reaction tank applied to the present invention.
3 is a process flow chart of a dredged soil dewatering method using a mechanical dewatering apparatus and a settling tank applied to the present invention.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. First, functionally identical or similar portions are given the same reference numerals throughout the drawings.

1 is a schematic view of a dredged soil dewatering system using a sedimentation tank and a mechanical dewatering apparatus according to the present invention, FIG. 2 is a schematic view showing an internal state of a reaction tank applied to the present invention, 3 is a schematic view showing the inside of the third septic tank applied to the present invention.

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

1, the overall configuration of the dredged soil dewatering system using the septic tank settling apparatus and the mechanical dewatering apparatus according to an embodiment of the present invention can be grasped, and as shown in FIG. 2, , The specific configuration can be grasped.

1 is a schematic view of a dredged soil dewatering system using a septic tank settling apparatus and a mechanical dewatering apparatus according to the present invention and includes a dredging apparatus 10, a discharge tube 12, a foreign matter removing apparatus 22, a reaction tank 24, And a first purification tank (20).

The dredging apparatus 10 is a device for sucking and discharging sediments deposited on the bottom of a port or an inland surface using a dredging means, for example, a dredging pump. The sediment includes sand, shell, gravel, Sand, etc., are discharged to the ocean again, and a preliminary device for purifying the seawater after filtering the shell, gravel and various sediments.

The seawater containing sediments sucked through the dredging apparatus 10 is conveyed through the discharge pipe 12 and contains foreign substances such as shell, gravel and various sediments mentioned above.

Shells, various sediments and the like must be removed. Particularly, on the sediments, in addition to the above-mentioned foreign matter, fine suspended matters are usually contained in the range of about 10% to 15%.

The present invention has a system for removing fine suspended matters, shells, gravel, foreign matters such as various sediments and the like, and releasing only purified sea water for marine purification.

To this end, the sediment dredged through the discharge pipe 12 is separated and removed from the shell, gravel, various sediments, etc. through the foreign material removing device 22.

The sediments separated through the foreign material removing device 22 include seawater and various suspended matters. The present invention separates the suspended matters in the seawater by using environmentally friendly natural sedimentation method.

That is, the present invention includes a reaction tank (24) for forming flocs by administering an aggregating agent to sediments separated through the foreign material removing device (22).

The reaction tank 24 schematically shows the state inside the reaction tank 24 through FIG. 2 in detail.

The reaction tank 24 is provided with a flocculant tank 24a which is supplied with the flocculant quantitatively into the reaction tank 24.

Particularly, it is possible to combine fine suspended particles and colloidal particles in seawater causing turbulence to perform agglomeration of large particles such as flocs. Coagulated flocs can also be reprocessed and reused.

The flocculant may be aluminum sulfate, aluminum chloride, ferrous chloride, etc. Usually, flocculation is a crosslinking phenomenon that acts to bridge the particles and particles, and the flocculation causes particles to flocculate. pH) and agitation.

The flocculant tank 24a used in the present invention is provided with an unillustrated flocculant dispenser for measuring the water quality and flow rate of seawater such as turbidity, acidity, alkalinity and water temperature by a sensor and adjusting the amount and acidity of the flocculant required, .

As shown in FIG. 2, the reaction vessel 24 is provided with a stirrer 24b. The flocculant injected quantitatively by the stirrer 24b sufficiently mixes and reacts with each other. The flocculated aggregate pollock is sedimented by natural gravity.

The flocculated and seawater flows into the first purification tank 20.

The flocs and seawater flowing into the first purification tank 20 are settled in a natural settled state with time, and the supernatant is discharged through the overflow, etc., and the settled flocs are taken out to the outside.

The flocs settled and settled in the first purification tank 20 are sludged and accumulated, and when they reach a certain amount, the flocs must be taken out and discarded.

To this end, the present invention utilizes a structure such as a barge especially on the outside, and a crane or the like is installed thereon to carry the flock to the outside.

At this time, a grab is installed in the crane to collect flocs. The collected pollock is transported to the outside by the carrier, and the seawater mixed with the floc is dehydrated while lifting into the grab.

In the first purification tank 20, the supernatant among the flocs and seawater transferred from the reaction tank 24 is collected and collected in the second purification tank 30.

The second septic tank 30 performs the same function as the first septic tank. In addition, the flocs are collected through a grab, and the collected flocs are taken out to the outside by a carrier or the like. During the lifting, the process of dehydration is repeated.

Subsequently, the supernatant among the flocs and seawater transferred from the second purification tank 30 is collected and collected in the third purification tank 40.

In the third purification tank (40), the floating matters that have flown over the second purification tank are agglomerated again to be natural sedimented, receive the supernatant, pass the supernatant through the filtration device, and measure the flow rate .

The third septic tank 40 according to the present invention is also characterized in that the sedimented and settled flocs are sludged and dewatered by a mechanical dewatering device such as a belt press, a filter press, a centrifugal separator, etc., .

As shown in FIG. 1, the third septic tank 40 according to the present invention has a circular shape and has a scrapper rotating at a low speed. The sludge floc is collected at the center, And is discharged to the outside by a device or the like.

According to the present invention, the sediment is purified through the following steps.

First, various sediments deposited on the port and inland water are collected, and then the foreign materials are removed, and the flocculant is added to the float and stirred with the float to form floc. Then, the floc and the supernatant are transferred to the first purification tank, A first purifying step (S100) for causing the water to overflow;

Among the supernatant transferred to the first purification step, the float is flocculated, the floc is naturally sedimented, the second purification step (S200) for flooding the supernatant;

A third purge step (S300) in which the suspension of the supernatant transferred to the second purge step forms a floc after agglomeration, the pollock is spontaneously precipitated, the supernatant is overflowed, and the overflowed supernatant is filtered out; And a control unit.

In the present invention, floc discharging step (S400) of discharging flocculated flocs by dewatering in the first, second and third purification steps, and discharging flocs; As shown in FIG.

As described above, since the present invention can dehydrate a large amount of dredged sediments in real time, it is highly possible to use the dredged sediments in a real environment where environmental dredging is required.

The present invention may be embodied in many other forms without departing from the spirit or essential characteristics thereof. Therefore, the above-described embodiments are merely examples in all respects, and should not be construed restrictively. The scope of the present invention is indicated by the appended claims, and the present invention is not restricted by the specification. Modifications and variations falling within the scope of the appended claims all fall within the scope of the present invention.

10: dredging device 12: distributor pipe
20: first purification tank 22: foreign matter removing device
24: Reactor 24a: Coagulant tank
24b: stirrer 30: second septic tank
40: Third purified water tank S100: First purification stage
S200: Second purification step S300: Third purification step
S400: floc discharge step

Claims (8)

In a dredged soil dewatering system using a septic tank settling and mechanical dewatering apparatus for purifying various sediments deposited in harbors and inland waters;
A dredging device for collecting sediments; a foreign matter removing device for separating foreign substances such as shells, gravel, and sediments contained in sediments dredged by the dredging device; and a coagulant for the foreign material separated through the foreign material removing device The floc is flocculated by flowing the float formed in the reaction tank and flocculating the floc, the supernatant is overflowing, and the flocculant flowing in the first purification tank is introduced, The natural sedimentation takes place, and the float is flocculated and flocculated, and the sludge is made into a natural dehydration such as a belt press, a filter press, a centrifuge, and a mechanical dehydration The flow meter is dehydrated by the treatment device and the supernatant is passed through a filtration device to measure the flow rate passed. Jidoe deployed comprises a third tank;
In the reaction tank,
A coagulant tank equipped with a coagulant feeder for measuring the turbidity, acidity, alkalinity, and water quality and the flow rate of the seawater so that the stored coagulant can be quantitatively introduced into the reaction tank so that the amount and the acidity of the coagulant required for the reaction tank can be controlled ;
The coagulant added to the reaction tank may be,
Aluminum sulfate, aluminum chloride, and ferrous chloride;
The flocculated sediment in the first and second septic tanks,
Wherein the sludge is pumped up by a grab provided on the crane, and is carried on a carrier conveyed to the outside, so that the sludge is dewatered while being conveyed by the grab, and the dewatering dewatering system using the mechanical dewatering system.
The method according to claim 1,
Wherein the sediment is fed to a foreign material removing device through a discharge pipe, and the dredged soil dewatering system using the mechanical dewatering apparatus.
The method according to claim 1,
Wherein the reaction tank is equipped with a stirrer. 2. A dewatering dewatering system comprising:
The method according to claim 1,
Wherein the first septic tank is provided with a foreign matter removing device and a reaction tank integrally with the septic tank and the dredged soil dewatering system using the mechanical dewatering device.
delete delete The method according to claim 1,
Wherein the third septic tank has a circular shape inside and a scrapper rotating at a low speed is installed to collect sludge flocs at a central portion of the septic tank, and the dredged soil dewatering system using the mechanical dewatering apparatus.
The method according to claim 1,
Wherein the first, second, and third septic tanks are installed on a barge.

Images