KR102508335B1 - Wastewater treatment device with circulation and electrolysis structure - Google Patents

Abstract

The present invention relates to a wastewater treatment device having a circulation and electrolysis structure, and more specifically, to a wastewater treatment device which receives wastewater, having evaporated and concentrated through an evaporator, and electrolyzes the same to purify the same. The device comprises: a water storage unit which comprises a water storage tank, receiving the water and filling the same therein, and a water supplying pump supplying water evaporated and concentrated to the water storage tank; an electrolysis unit which receives the water filled in the water storage tank to electrolyze the same; and a flow rate regulating tank which receives the water electrolyzed in the electrolysis unit and fills the same therein. Since the wastewater transmitted from the evaporator is purified by electrolysis, the device simplifies a purifying process of wastewater to decrease purifying time, enables the reduction in construction costs and maintenance expenses of purification facilities, and is able to improve the productivity.

Description

Wastewater treatment device with circulation and electrolysis structure {Wastewater treatment device with circulation and electrolysis structure}

The present invention relates to a wastewater treatment apparatus having a circulation and electrolysis structure, and more particularly, to purify wastewater delivered from an evaporator by electrolysis, thereby simplifying the purification process of wastewater and reducing purification time. In addition, it is possible to reduce the construction cost, maintenance cost, and maintenance cost of the purification facility, and relates to a wastewater treatment device having a circulation and electrolysis structure that can improve productivity.

In general, as a method of purifying and treating industrial wastewater, etc., there is a method of injecting a coagulant into the wastewater to precipitate and remove the aggregated foreign matter, and a method of filtering and removing foreign matter contained in the wastewater through a screen.

In addition, a method of supplying wastewater from which foreign substances are primarily filtered to an evaporator, which is a secondary treatment facility, evaporates the wastewater by heating it in the evaporator, and separates the remaining sludge is used.

At this time, the evaporator is made under normal pressure or reduced pressure, and the pressure is in the range of 0 to -760mmHg. The evaporation concentration method includes a batch method and a continuous process, and is composed of one stage or multiple stages. It may also be equipped with a steam compressor to recover energy. The evaporator may be equipped with a device such as a mist separator or a demister for removing entrained droplets.

The wastewater treatment process using such an evaporator performs a process of separating the wastewater into steam and residual concentrated liquid.

Thereafter, the wastewater supplied from the evaporator, which is a secondary treatment facility, may remove low boiling substances such as volatile organic compounds or ammonia nitrogen through a low boiling point treatment device.

Thereafter, pollutants contained in the wastewater are removed and purified by microorganisms by a method of aerobic treatment or anaerobic treatment through a biological treatment facility, which is a tertiary treatment facility. In addition, an anoxic treatment process is operated to treat nitrogen.

However, among conventional wastewater treatment processes, low boiling point treatment facilities had to be installed to reduce the pollutant load of biological treatment facilities, which are tertiary treatment facilities. Since the wastewater is purified after a certain period of time has elapsed after input, there is a problem that excessive purification time is required, and a problem that excessive equipment costs are required due to the construction of storage facilities consisting of tanks for storing wastewater and microorganisms. In addition, there is a problem in that it is difficult to secure space for the arrangement of storage and processing facilities, and the problem of excessive maintenance and repair costs of storage and processing facilities remains.

The foregoing invention refers to the background art in the technical field to which the present invention belongs, and does not mean the prior art.

Registered Patent No. 10-1317757 Registered Patent No. 10-0725948 Registered Patent No. 10-0954301

The present invention has been made to solve the above conventional problems, and an object of the present invention is to purify wastewater delivered from an evaporator by electrolysis, thereby simplifying the purification process of wastewater and reducing purification time. Its purpose is to provide a wastewater treatment device having a circulation and electrolysis structure that can reduce construction costs, maintenance costs, and maintenance costs of purification facilities, and improve productivity.

The present invention is a wastewater treatment apparatus that receives water, which is wastewater evaporated and concentrated through an evaporation concentrator, and electrolyzes and purifies the wastewater. A water storage unit composed of a water supply pump supplying evaporated and concentrated water to the storage tank, an electrolysis unit receiving water filled in the water storage tank and performing electrolysis, and receiving and filling the water electrolyzed in the electrolysis tank It is characterized in that it consists of a flow control tank to be.

In addition, the water storage unit is further provided with a drug supply device to supply a drug to the water storage tank, and the drug supply device pumps the drug in the drug supply tank and the drug supply tank filled with the drug to the water storage tank. It is characterized by consisting of a chemical supply pump for supplying to.

In addition, a flow controller is further installed in the electrolysis unit so that the discharged electrolyzed water is supplied to the flow control tank at a constant amount and speed.

In addition, the water circulation supply unit is further provided in the flow control tank to circulate and supply the electrolyzed water filled therein to the electrolysis tank, and the water circulation supply unit is provided through a circulation connector formed in the flow control tank and the circulation connector. It is characterized in that it consists of a circulation pump for receiving the filled water and supplying it to the electrolysis tank.

In addition, the electrolysis unit is composed of an electrolysis tank filled with water supplied from the water storage unit, electrode members provided in the electrolysis tank, and a power supply unit supplying power to the electrode members of the electrolysis tank. to be

The wastewater treatment device having a circulation and electrolysis structure according to the present invention purifies the wastewater delivered from the evaporator by the electrolysis method, thereby simplifying the wastewater purification process to reduce the purification time and the construction cost of the purification facility. and maintenance and maintenance costs can be reduced, and productivity can be improved.

1 is a view showing a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.
Figure 2 is a view showing the treatment process of the wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.
3 is a conceptual diagram showing a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.
4 is a view showing an electrolysis unit of a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.
5 is a conceptual diagram showing another embodiment of a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.
6 is a partially enlarged view showing a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.
7 is a partially enlarged view showing a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.
8 is a graph showing the voltage change according to the current concentration of the wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.
9 is a graph showing the voltage change according to the current density of the wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.

Since the description of the present invention is only an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, since the embodiment can be changed in various ways and can have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea.

On the other hand, the meaning of terms described in the present invention should be understood as follows.

Terms such as "first" and "second" are used to distinguish one component from another, and the scope of rights should not be limited by these terms. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element.

It should be understood that when an element is referred to as being “connected” to another element, it may be directly connected to the other element, but other elements may exist in the middle. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that no intervening elements exist. Meanwhile, other expressions describing the relationship between components, such as “between” and “immediately between” or “adjacent to” and “directly adjacent to” should be interpreted similarly.

Expressions in the singular number should be understood to include plural expressions unless the context clearly dictates otherwise, and terms such as “comprise” or “having” refer to an embodied feature, number, step, operation, component, part, or these. It should be understood that it is intended to indicate that a combination exists, and does not preclude the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

In each step, the identification code (eg, a, b, c, etc.) is used for convenience of explanation, and the identification code does not describe the order of each step, and each step clearly follows a specific order in context. Unless otherwise specified, it may occur in a different order than specified. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless defined otherwise. Terms defined in commonly used dictionaries should be interpreted as consistent with meanings in the context of related art, and cannot be interpreted as having ideal or excessively formal meanings unless explicitly defined in the present invention.

1 is a view showing a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention. Figure 2 is a view showing the treatment process of the wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention. 3 is a conceptual diagram showing a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention. 4 is a view showing an electrolysis unit of a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention. 5 is a conceptual diagram showing another embodiment of a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention. 6 is a partially enlarged view showing a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention. 7 is a partially enlarged view showing a wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention. 8 is a graph showing the voltage change according to the current concentration of the wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention. 9 is a graph showing the voltage change according to the current density of the wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention.

As shown in the drawing, the wastewater treatment apparatus 10 having a circulation and electrolysis structure according to the present invention (hereinafter referred to as a wastewater treatment apparatus for convenience of description) receives water, which is wastewater evaporated through an evaporator, and electrolyzes it. As a wastewater treatment device 10 to be purified, the wastewater treatment device 10 includes a water storage unit 20, an electrolysis unit 30, and a flow control tank 40.

The water storage unit 20 includes a water storage tank 21 in which the water is supplied and filled therein, and a water supply pump 22 which receives water from the evaporator and supplies evaporated and concentrated water to the water storage tank 21. ) is made up of

The water supply pump 22 and the water storage unit 20 are pipe-connected by a pipe line, and by driving the water supply pump 22, the water evaporated and concentrated in the evaporator is supplied to the water storage tank 21. will supply

The water storage tank 21 is formed of a housing structure provided with a storage space therein.

The electrolysis unit 30 receives the water filled in the water storage tank 21 and electrolyzes it.

At this time, as shown in FIGS. 8 to 9, the current concentration may be applied to be greater than 0 and less than 50A/L (Ampere Per Liter), and the applied current density may be greater than 0 and 50ASD (Ampere Per Square Deci-Metre). do.

The electrolysis unit 30 includes an electrolysis tank 31 filled with water supplied from the water storage unit 20, electrode members 32 provided in the electrolysis tank 31, and the electricity It consists of a power supply unit 33 for supplying power to the electrode members 32 of the decomposition tank 31.

The electrolysis tank 31 is a water tank having an open top and a filling space to receive water therein.

The electrode members 32 are composed of a negative electrode member 32 and a positive electrode member 32, and are detachably screwed and fixed to a bracket formed in the electrolysis tank 31.

The power supply unit 33 applies power to the electrode member 32 to electrolyze the water filled in the electrolysis tank 31 to remove harmful components contained in the water.

By allowing the electrolysis unit 30 to be applied instead of the low boiling point treatment process and microorganism treatment process applied in the sewage and wastewater treatment process, the low boiling point treatment process can be omitted or the amount of chemicals used in the low boiling point treatment process can be reduced. It is possible to reduce the equipment cost for treating microorganisms and microorganisms continuously used in the microbial treatment process, improve the speed of the process, and reduce the treatment cost of wastewater.

Here, it is preferable that the electrolysis tank 31 is further provided with an elevation-type vibration and agitation means to move or vibrate the wastewater to be filled so that uniform electrolysis of the wastewater can be achieved.

The lifting type vibration shaking means includes a fixing bracket screwed to the upper surface of the electrolysis tank 31, a lifting cylinder screwed and fixed to the fixing bracket and having an lifting shaft disposed inside the electrolysis tank, and the lifting cylinder. A connection bracket screwed and fixed to the lifting shaft of the cylinder, one end screwed and fixed to the connection bracket, and an oscillation and vibration panel disposed in the water while maintaining a level with the bottom surface of the electrolysis tank, and the oscillation and vibration panel It consists of oscillation holes formed in the vibration panel, and while the oscillation and vibration panel is moved up and down by the driving of the lifting cylinder, the wastewater filled in the electrolysis tank 31 is oscillated and moved up and down. It is preferable to ensure uniform electrolysis while passing wastewater through the fluctuating holes.

In addition, in the process of the shaking and vibration panel moving up and down, foreign substances included in the wastewater collide with the shaking and vibration panel to be crushed, and the foreign substances are rubbed or caught while penetrating the shaking holes and are crushed again, so that the pipe line is damaged by the foreign substances. It is desirable to prevent clogging.

In addition, by further screwing and fixing a vibrator, which is a vibrator, to the lifting cylinder, the vibration of the vibrator is transmitted to the shaking vibration panel through the lifting cylinder, thereby increasing the crushing efficiency of foreign substances and allowing wastewater to flow, thereby electrolysis again. It is desirable to increase the efficiency.

In addition, it is preferable to increase the electrolysis efficiency by forming the electrode member 32 in a U-shape to widen the contact area.

In addition, it is preferable to integrally further form electrode pins on the outer surface of the electrode member 32 to increase the electrolysis efficiency by increasing the contact area between the electrode member and wastewater.

In addition, it is preferable to further form flow holes in the electrode member 32 so that the wastewater moves through the flow holes, thereby increasing the electrolysis efficiency by increasing the contact area between the electrode member and the wastewater.

The flow control tank 40 is filled by receiving water electrolyzed in the electrolysis tank 31 .

The flow control tank 40 is formed in a housing structure having a storage space therein, and is pipe-connected to the electrolysis tank 31 by a pipe line to receive electrolyzed water.

A pump is fastened to a pipe line connecting the flow control tank 40 and the electrolysis tank 31 to supply water electrolyzed in the electrolysis tank 31 to the flow control tank 40 .

An outlet is provided in the flow rate adjusting tank 40 so that the filled water is discharged to the outside or transferred to a treatment tank for treating the water.

Alternatively, a part of the water is supplied to the electrolysis tank 31 and circulated by the water circulation supply unit 60 to be described later.

The chemical supply device 23 supplies chemicals to the water storage tank 21 in the water storage unit 20 .

The drug supply device 23 includes a drug supply tank filled with a drug and a drug supply pump 232 pumping the drug in the drug supply tank 231 and supplying the drug to the water storage tank 21 .

The chemical supply pump 232 is connected to the water storage tank 21 by a pipe line, and supplies chemicals that purify water and remove harmful components.

A flow controller 50 is further installed in the electrolysis unit 30 so that the discharged electrolyzed water is supplied to the flow control tank 40 at a constant amount and speed.

The flow controller 50 is formed of a housing structure having a storage space therein, and is pipe-connected to the electrolysis tank 31 and the flow control tank 40 by a pipe line to guide water.

A water circulation supply unit 60 is further provided in the flow control tank 40 to circulate and supply the electrolyzed water filled therein to the electrolysis tank 31 .

The water circulation supply unit 60 includes a circulation connector 61 formed in the flow control tank 40 and a circulation pump that receives water filled through the circulation connector 61 and supplies it to the electrolysis tank 31. It consists of (62).

The circulation pump 62 is pipe-connected to the circulation connector 61 of the flow control tank 40 and the electrolysis tank 31 by a pipe line, and electrolysis filled in the flow control tank 40 is driven. The used water is supplied to the electrolysis tank 31 again to be electrolyzed.

By circulating and supplying water from the flow rate control tank 40 to the electrolysis tank 31 by the water circulation supply unit 60, the purification efficiency of sewage and wastewater can be increased, and the electrolyzed water can be supplied to the water storage tank. In (21), it is mixed with the water flowing into the electrolysis tank 31, thereby reducing the concentration of pollutants in the water flowing into the electrolysis tank 31, thereby increasing the electrolysis efficiency.

TOC and T-N by treatment process Example 1 treatment process reference number TOC (ppm) T-N (ppm) raw waste water 330 260 water storage 20 electrolysis part 30 flow control tank 40 72.5 52 flow controller 50 Water circulation supply unit 60

Table 1 is an example for each treatment process to show the removal rates of TOC (total organic carbon) and T-N (total nitrogen) for each treatment process. As shown in Table 1 above, when the wastewater treatment device according to the present invention is applied, the total organic carbon (TOC) removal rate is 78% in the flow control tank compared to the initially introduced raw wastewater, and the total nitrogen (TN) It can be seen that the removal rate shows a removal rate of 80% in the flow control tank compared to the first inflow raw wastewater.

In Table 2 below, the wastewater treatment process involving the biochemical treatment process and the wastewater treatment process according to the present invention were compared.

Treatment process comparison Existing treatment process Description of the existing treatment process Treatment process according to the present invention Process Description raw water storage tank raw water inflow raw water inflow Physical and chemical treatment Chemical reaction, neutralization, flocculation precipitation
Pre-treatment and suspended solids (SS) removal Physicochemical treatment Evaporation Concentration Treatment Separation of water by boiling difference Evaporation Concentration Treatment low boiling point processing NH3-N removal electrochemical treatment Simultaneous removal of TOC and NH3-N
Removal using electrical force
compactness biochemical treatment NH3-N and TOC removal
If the inflow concentration is high or the concentration ratio is not right, the removal is not good. treated water spill treated water storage tank treated water discharge

As shown in Table 2 above, since the treatment process according to the present invention does not involve a biochemical treatment process, it is possible to simplify the purification process of wastewater.

As described above, the wastewater treatment apparatus having a circulation and electrolysis structure according to the present invention purifies the wastewater delivered from the evaporator by the electrolysis method, thereby simplifying the wastewater purification process to reduce the purification time and purification It is possible to reduce the construction cost, maintenance cost, and maintenance cost of the facility, and there is an effect of improving productivity.

Although the present invention has been described in detail so far, it is clear that the embodiments mentioned in the process are only illustrative and not limiting, and the present invention is the technical spirit or field of the present invention provided by the claims below. Within the range that does not deviate from, it will be said that component changes to the extent that can be equally coped with fall within the scope of the present invention.

10: wastewater treatment device
20: water storage unit
21: water storage tank
22: water supply pump
23: chemical supply device
231: chemical supply tank
232: chemical supply pump
30: electrolysis unit
31: electrolysis tank
32: electrode member
33: power supply
40: flow control tank
50: flow controller
60: water circulation supply unit
61: circulation connector
62: circulation pump

Claims (5)

A wastewater treatment device designed to electrolyze and purify water, which is wastewater evaporated and concentrated through an evaporator,
A water storage unit comprising a water storage tank filled with the water and a water supply pump receiving water from the evaporation concentrator and supplying evaporated and concentrated water to the water storage tank;
an electrolysis unit that electrolyzes the water filled in the water storage tank; and
In the wastewater treatment device having a circulation and electrolysis structure consisting of a flow control tank filled with water electrolyzed by the electrolysis unit,
The flow control tank is further provided with a water circulation supply unit to circulate and supply the electrolyzed water filled therein to the electrolysis tank constituting the electrolysis unit,
The water circulation supply unit,
A circulation connector formed in the flow control tank;
It consists of a circulation pump for receiving water filled through the circulation connector and supplying it to the electrolysis tank,
The electrolysis tank is further provided with an elevation-type vibration and agitation means to move or agitate the wastewater to be filled so that uniform electrolysis of the wastewater is achieved,
The lifting type vibration shaking means includes a fixing bracket screwed to the upper surface of the electrolysis tank, a lift cylinder screwed and fixed to the fixing bracket and an lift shaft disposed inside the electrolysis tank, and an lift shaft of the lift cylinder. A connection bracket screwed to and fixed to the connection bracket, one end of which is screwed and fixed to the connection bracket, and a rocking and vibration panel disposed in the water while maintaining a level with the bottom surface of the electrolysis tank, and formed on the rocking and vibration panel Circulation and electrolysis structure characterized in that the vibration and vibration panel is moved up and down while the vibration and vibration panel is moved up and down by the driving of the lifting cylinder. Wastewater treatment device having a.
According to claim 1,
The water storage unit is further provided with a chemical supply device to supply a chemical to the water storage tank,
The chemical supply device has a circulation and electrolysis structure consisting of a chemical supply tank filled with a chemical therein and a chemical supply pump for pumping the drug in the chemical supply tank and supplying the drug to the water storage tank.
According to claim 1,
Wastewater treatment apparatus having a circulation and electrolysis structure, characterized in that the flow controller is further installed in the electrolysis unit so that the electrolyzed water discharged is supplied to the flow control tank at a constant amount and speed.
delete According to claim 1,
The electrolysis unit includes an electrolysis tank filled with water supplied from the water storage unit;
Electrode members provided in the electrolysis tank;
Wastewater treatment apparatus having a circulation and electrolysis structure, characterized in that consisting of a power supply unit for supplying power to the electrode members of the electrolysis tank.

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