KR100893338B1 - Electrolysis system for removing pollutants in outflow water of abandoned mine - Google Patents

Abstract

An electrolysis system for purifying water of an abandoned mine having an attachable scraper is provided to maximize purification efficiency and to extend life extension of an electrode. An electrolysis system for purifying water of an abandoned mine having an attachable scraper comprises a housing(10), a drive center axis(25), a plurality of anode plates and cathode plates(20)(21), a scraper(23), a control unit(30), and a cleaning unit(40). The housing includes an inlet(11), an outlet(12), a lower valve(13). The housing is formed by combining both side plates(15) with a fastening bolt(14). A motor drives the drive center axis. The control unit controls the whole electrolysis system. The cleansing unit includes a spray nozzle(41) spraying water and installed on an upper part of the housing.

Description

Electrolysis system for removing pollutants in outflow water of abandoned mine

The present invention relates to an electrolysis system for purification of waste mine shaft water with a removable scraper, and more particularly, to various scales attached to a negative electrode plate of an electrolysis system for electrochemical reaction of various heavy metal contaminants contained in waste mine mine water. The present invention relates to an electrolysis system for the purification of abandoned mine mines, which can be attached to a removable scraper to improve the treatment efficiency of the electrolysis system, to extend the service life of the electrode, and to maximize the treatment efficiency.

The quantity of mine water discharged from the abandoned mines and the heavy metal contaminants contained in the mine water vary. For example, Gangwon-do Najeon Mining's daily emission is 3,000㎥ / day, and some mining's daily emission is about 23,000㎥ / day. Such abandoned mines are not limited to only one region, and in Korea, they are evenly distributed in Gangwon-do and Chungcheong-do, which are relatively rich in mineral resources.Therefore, mines containing harmful heavy metals such as lead, cadmium, and iron are found throughout the country. It is a situation that is penetrating the soil and causing serious environmental pollution.

The methods for purifying the mine mine pit water include a natural purification method, an electropurification method, and a physicochemical purification method. Natural purification method is a method of oxidizing with the limestone and iron Chemistry bacteria in a large feed tank and a certain amount of time of stay was suspended solids and physical precipitation with some heavy metals, electrical purification method is an OH produced by the electrolytic ^oxidation ions and heavy metals After the reaction is a method of flocculation and precipitation, the physicochemical purification method is a method of flocculation and precipitation after reacting the ionized heavy metal by adding NaOH, Ca (OH) ₂ .

Depending on the concentration of heavy metals in the mine water and the quantity of outflow, the selective treatment of the passive treatment method (positive treatment) and the positive treatment method (electrostatic purification) and the physicochemical purification method are selectively performed. If the quantity is low and the concentration of heavy metal is low, the treatment is passive. If the quantity is high and the concentration of heavy metal is high, the treatment is positive.

However, in the case of the natural purification method, the precipitation of ions and colloidal minerals is difficult, the disposal of the deposited sediment is very cumbersome, and the high iron content does not remove the red color of the mine water, which makes the treated water unstable. And control according to the concentration is impossible. When the positive method is applied, most of the mine drainage areas are located in the mountainous areas of the outback, so there is a problem that it is difficult to input manpower even when it is necessary to constantly inject manpower. The purification method has a problem in that maintenance costs increase according to the amount of sludge generated.

Applicant of the present invention has been registered in the Patent No. 519192 for "waste mine mine water purification treatment facility and its control method" for the purification of waste mine mine water. Figure 1 shows a cross-sectional view of the electrolysis tank (electrolysis system) of the patent, the electrolysis tank is composed of an outer cylinder (1) and the inner cylinder (2), the shaft (3) inside the inner cylinder is rotated in the vertical direction A plurality of negative electrode plates 4 are fixedly spaced apart from each other at predetermined intervals, and a plurality of positive electrode plates 5 disposed between the plurality of negative electrode plates are fixedly installed on the inner wall of the outer cylinder, and the plurality of negative electrode plates 4 are fixed to the outer peripheral surface of the shaft. The scraper 6 is fixed and provided so as to be in rotational contact with the surface of each negative plate.

However, the electrolysis tank is configured to remove scales through which the cationic minerals (Ca, Mg, etc.) contained in the mine water are directly attached to the negative electrode plate or converted into dentite oxide while passing through the negative electrode plate and the positive electrode plate of the electrolysis tank. However, due to the viscosity of the scale is not easy to discharge the scale to the lower outlet of the electrolysis tank, the scale formed in the electrolysis tank case and the scale accumulated in the lower pipe has a problem that the operator must remove and wash by hand, Since the electrolysis tank is doubled in the inner and outer cylinders, the structure is complicated, but it is more difficult to remove the scale.

In addition, since the scraper is fixedly installed on the rotating shaft, even when one of the scrapers is to be replaced or repaired, the entire electrolysis tank needs to be disassembled, which causes troublesome work and time and labor.

The present invention has been made to solve the above problems, an object of the present invention, to efficiently remove various scales attached to the negative electrode plate of the electrolysis system for electrochemical reaction of various heavy metal contaminants contained in the waste mine mine water In order to improve the efficiency of electrolysis system, extend the service life of the electrode, and install the electrolysis system for the removal of waste mine mines with detachable scraper, which can maximize the treatment efficiency. It is to provide.

Still another object of the present invention is to provide a cleaning device for spraying pressure water through a spray nozzle in order to remove the scale formed on the inside and outside of the electrode and the scale formed in the lower valve and the rear end pipe, thereby improving the treatment efficiency of the electrolysis system and purifying it. It is to provide an electrolysis system for the purification of waste mine pit water with a removable scraper that can maximize the treatment efficiency.

In order to solve the problems as described above, the electrolysis system for purification of the mine mine shaft water with a removable scraper according to the present invention includes an inlet, an outlet, and a lower valve, the upper part of which is open, and coupled between fastening bolts between both side plates. housing; A driving center shaft penetrating through the longitudinal center of the housing; A plurality of positive electrode plates and negative electrode plates that are inserted into the driving center shaft; A scraper detachably mounted on a surface of each negative plate; A motor for driving the driving center shaft; A control unit for controlling the whole electrolysis system; It is installed on the upper portion of the housing, characterized in that it comprises a cleaning device attached to the injection nozzle for spraying water.

Preferably, the cleaning device installed on the upper part of the housing can be moved on the rail installed on the upper part of the housing.

The electrolysis system for purification of waste mine mines with detachable scrapers according to the present invention having the above characteristics has various scales attached to the negative electrode plate of the electrolysis system for electrochemical reaction of various heavy metal contaminants contained in the waste mine mines. Detachable installation of scraper for efficient removal allows for convenient maintenance and electrolysis system by automatically cleaning scale formed on the inside and outside of electrolysis system and scale formed on lower valve by washing machine. It is possible to improve the processing efficiency of the electrode and to extend the service life of the electrode, and eventually to maximize the purification treatment efficiency.

In the electrolysis system according to the present invention, in a facility for purifying contaminants such as heavy metals contained in waste mines, the contaminants such as Fe, Al and Mn heavy metal ions contained in the mines are electrolyzed to colloidal state. Is a device to convert. The electrolysis system is basically composed of a housing 10, a positive plate 20 and a negative plate 21, a scraper 23, a motor 27 and a control unit 30 installed in the housing 10, such electric The housing 10 of the decomposition system was formed in a cell type in which the size of the electrode, the gap, and the size of the unit reactor were optimized to maximize processing efficiency.

The housing 10 has an inlet 11 and an outlet 12 through which the internal water flows into and out of the housing 10, and a lower valve 13 for discharging contaminants. The coupling bolts 14 are coupled to each other, and since the shape of the electrode plate is circular, the housing 10 may also be formed in a cell type having a circular cross section, and the coupling bolts 14 may include a housing ( Fasten along the edge of 10).

The driving center shaft 25 is installed through the center of the housing 10 in the longitudinal direction, and the plurality of positive electrode plates 20 and the negative electrode plates 21 are fitted to the driving center shaft 25 in the housing 10 to face each other. The scraper 23 is detachably installed to remove the scale accumulated on the negative electrode plate 21 in contact with the surface of the negative electrode plate 21, and to adjust the strength of the voltage and current of the power supplied to the electrode plate. A rectifier (not shown) is provided.

In the present invention, since the scraper 23 is detachably mounted at both ends by fastening bolts 14 and the driving central shaft 25, only the corresponding scraper 23 can be replaced if necessary. The maintenance is convenient as compared to the fixed type, and since the entire electrode does not need to be dismantled when replacing the scraper 23, the durability of the electrode can be secured.

A motor 27 is installed to drive the driving center shaft 25 to rotate the negative electrode plate 21, and the rotational force of the motor is connected to the chain 29 connecting the rotating shaft of the motor 27 and the driving center shaft 25. It is possible to use any means as long as it is a power transmission means.

The electrolysis system is provided with a control unit 30, the control unit 30, in accordance with the change in the concentration of the inlet water flowing into the electrolysis system in order to electrolyze the contaminants contained in the water in the mine to convert to a colloidal state Controlling the rotational drive and rotation speed of the negative electrode plate 21 by controlling the power supplied to the positive electrode plate 20 and the negative electrode plate 21, and controlling the rotation of the motor 27 and the driving axis 25. Organic scale and automatic control of the driving of the cleaning device 40 for cleaning the scale and the scale formed in the lower valve and the rear end pipe formed in the.

The upper part of the housing 10 is provided with a washing device 40 is attached to the spray nozzle 41 for spraying water, the washing device 40 is guided along the rail 43 installed on the upper portion of the housing 10 The electrolysis system is automatically washed while moving, and the water sprayed from the spray nozzle 41 must be sprayed with pressure water of 5 kg / cm 2 or more to easily remove the scale.

Only one electrolysis system may be installed, but each electrolysis system may be operated independently by arranging two to five electrolysis systems in parallel depending on the number of mines or the capacity of the electrolysis system.

In addition, in the present specification, the electrode plate of the electrolysis system of the present invention is disposed in the vertical direction to show and explain an example in which the direction of the electrode plate and the inflow direction of the shaft water are perpendicular to each other. Of course, the inflow direction and the direction of the electrode plate may be installed in the same manner.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 is a cross-sectional view showing a conventional electrolysis system.

2 is a perspective view of an electrolysis system according to the present invention.

3 is a side cross-sectional view of an electrolysis system according to the present invention.

4 is a cross-sectional view of an electrolysis system according to the present invention.

** Description of symbols for the main parts of the drawing **

10 housing 11 inlet

12 Outlet 13 Lower Valve

14 fastening bolt 15 side plate

20: positive electrode plate 21: negative electrode plate

23: scraper 25: drive center shaft

27: motor 29: chain

30: control unit 40: washing device

41: injection nozzle 43: rail

Claims (6)

In the electrolysis system for the purification of waste mine shaft mine, the electrolysis system, A housing having an inlet port, an outlet port, and a lower valve, the upper part of which is open, and coupled between fastening bolts between both side plates; A driving center shaft penetrating through the longitudinal center of the housing; A plurality of positive electrode plates and negative electrode plates that are inserted into the driving center shaft; A scraper detachably mounted to be in contact with the surface of each negative plate; A motor for driving the driving center shaft; A control unit for controlling the whole electrolysis system; A washing apparatus installed at an upper portion of the housing and having a spray nozzle spraying water; Electrolysis system for the purification of abandoned mine shaft mine with a removable scraper, characterized in that comprises a. The method of claim 1, The scraper is an electrolysis system for purification of waste mine shaft mines with removable scrapers, characterized in that both ends are fitted to the fastening bolt and the drive center shaft, respectively. delete The method of claim 1, The washing apparatus, the electrolysis system for the waste mine mine water purification with a removable scraper is characterized in that it can be moved on a rail installed on the upper portion of the housing. The method of claim 1, Electrolysis system for the waste mine shaft purification with a removable scraper, characterized in that for transmitting the rotational force of the motor to the drive center shaft through a chain. The method of claim 1, The electrolysis system is an electrolysis system for the purification of abandoned mine shaft mines with a removable scraper, characterized in that two to five units are arranged in parallel, so that each electrolysis system can be operated separately.

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