JP2002011380A - Closed electrostatic treatment device and waste liquid treatment process using this device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electrostatic treatment device which can use a solvent with a lower specific gravity than water in an electrostatic field. SOLUTION: This closed electrostatic treatment device is operated in such a way that a direct current high voltage is applied between a pair of electrodes 4a, 4b arranged in an electrically insulative solvent 2 packed in a tank 1 and a liquid 3 to be treated is run between the electrodes 4a, 4b, so that the liquid 3 is electrostatically treated. In addition, a deaeration valve 5 is provided on the top part of the device and thus the device is of a closed tank type. Further, a nozzle 6 for introducing the liquid 3 to be treated is provided on the top part of the tank 1 and either of the electrodes 4a, 4b located in the middle part of the tank 1 occupies the center part of the tank 1, while the other keeps airtightness with the internal wall of the tank 1, encircling the entire periphery of the former electrode. Besides, a pocket 7 using the outer wall of the tank 1 as a partition is formed at the lower part of the tank 1, and the pocket 7 and the interior of the tank 1 communicate with each other in the middle part of and/or below the pocket 7. On the upper end part of the pocket 7, a treated water discharge aperture 8 is formed and a sludge delivery aperture 9 is formed at the bottom of the tank 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a method for removing various waste liquids and the like.
The present invention relates to an apparatus and a processing method capable of performing treatment in an electrostatic field using a solvent having a specific gravity lower than that of water as an electrically insulating solvent.

[0002]

2. Description of the Related Art A series of electrostatic treatment apparatuses utilizing an electrostatic field in an electrically insulating solvent has been developed as an apparatus effective for treating contaminated water or the like by a solvent (Japanese Patent No. 2631082).
JP, JP-A-12-51738, JP-A-5-8
No. 3306) and the solvent used in these apparatuses is mainly a solvent having a specific gravity larger than that of water. For example, perchlorethylene, trichlorethylene and the like.

[0003] In recent years, the introduction of ISO standards, the enactment of the Chemical Substances Control Law, and the like have strengthened the social background of dechlorination and defluorocarbon, and legislation such as prohibition of use and production volume restriction and administrative guidance have been made. Similarly, the development and development of a dechlorinated solvent must be carried out for the solvent to be filled in the processing apparatus.

However, the use of a solvent having a lower specific gravity than water, for example, a hydrocarbon-based solvent or an alcohol-based solvent has been considered impossible due to problems such as volatility and flammability.

[0005]

SUMMARY OF THE INVENTION The present invention provides an electrostatic treatment apparatus capable of using a solvent having a lower specific gravity than water in an electrostatic field, and an efficient waste liquid treatment method using the same. The task is to

[0006]

According to the present invention, the above object has been attained by providing a closed type electrostatic treatment apparatus and providing a deaeration valve at the top thereof. That is, the device of the present invention
A pair of electrodes is arranged in the electrically insulating solvent layer filled in the tank, a high-voltage DC voltage is applied between the electrodes, and the liquid to be treated is electrostatically treated by passing the liquid to be treated between the electrodes. , To remove contaminants in the liquid to be treated, wherein the tank is a hermetically sealed tank provided with a deaeration valve at the top, and a nozzle for introducing the liquid to be treated is provided at the top of the tank. In the middle part of the tank, the pair of electrodes are arranged, one of which is located at the center of the tank, and the other electrode is in a state of having security between the tank and the inner wall,
It is arranged so as to entirely surround the periphery of the one electrode, and a lower part of the tank is provided with a pocket below the outer wall of the tank as a partition plate. And / or that it communicates at the bottom, that a treated water outlet is provided at the upper end of the pocket, and that a sludge outlet is provided at the bottom of the tank, The inlet and outlet for the solvent are provided on the side wall of the tank at the filling portion.

In such an apparatus, the tank is of a closed type,
In addition, since a degassing valve is provided at the top, gas present in the tank or generated in the tank is naturally removed, so that a solvent having a specific gravity smaller than water, such as normal hexane, isopropyl alcohol, methyl ethyl ketone, etc. Even when hydrogen, alcohol, petroleum, oils and fats are used, it is possible to completely fill the upper and middle parts of the tank with the solvent without forming a gas phase above the solvent. Therefore, even if the solvent is volatile and flammable, it does not come into contact with the gas phase in the tank, so that it can be used without fear of fire or explosion.

[0008] One of the electrodes is located in the middle of the tank so as to be the center, and the other electrode is provided so as to entirely surround the center electrode. Further, since the space between the surrounding electrodes and the inner wall of the tank is formed so as to be confidential, all of the liquid to be processed passes between the electrodes, and is reliably and uniformly subjected to electrostatic treatment.

The liquid to be treated is introduced into the solvent from a nozzle mounted above the tank, electrostatically treated, and substances dissolved in the solvent are reliably released from the solvent. A layer of water (treated water) from which the organic and inorganic substances contained in the liquid to be treated have been removed is formed at a certain distance away from the tank, and the suspended substances and inorganic substances removed at this time are As a sludge layer, it sinks to the bottom and is removed from the sludge outlet.

[0010] The treated water is taken out from a treated water outlet provided at the upper end of the pocket below the tank.
This treated water may be subjected to activated carbon treatment, if necessary, or may be more reliably purified by performing electrolysis treatment or electrostatic treatment with a different solvent filled in the tank repeatedly. .

[0011] The device of the present invention is as follows.
As an electrically insulating solvent to be filled into the tank, as desired, even a solvent having a lower specific gravity than water, or a solvent having a higher specific gravity,
Can be used.

This apparatus has the same structure as the above-mentioned apparatus, when a solvent having a specific gravity smaller than that of water is used.
Furthermore, when using a solvent having a higher specific gravity than water (for example, chlorine-based and fluorine-based solvents such as perchlorethylene and trichloroethylene), a pocket may be provided above the tank or a liquid to be treated may be introduced below the tank. It is necessary to add a nozzle. The basic configuration is as follows. The tank is a hermetically sealed tank provided with a degassing valve at the top, and a nozzle for introducing a liquid to be treated is provided at the upper and lower parts of the tank, and the pair of electrodes is arranged at the center of the tank. One electrode is located at the center of the tank, and the other electrode is disposed so as to entirely surround the periphery of the one electrode in a state of having security between the tank and the inner wall of the tank. That, at the lower and upper part of the tank, there is a pocket below the outer wall of the tank as a partition plate,
The pocket and the inside of the tank are to communicate with each other in the middle part of the pocket, the upper part of the upper pocket and the upper part of the lower pocket are provided with treated water discharge ports, and the bottom of the tank A sludge or an intermediate layer outlet at the lower end of the upper pocket, and a solvent inlet and an outlet on the side wall of the tank where the solvent is filled.

In this apparatus, similarly to the previous apparatus, when a solvent having a lower specific gravity than water is used as the solvent, the liquid to be treated is introduced from the upper nozzle, and the processing liquid after the electrostatic treatment is discharged to the lower nozzle. What is necessary is just to take out from the treated water outlet provided at the upper end of the pocket, and when using a solvent having a higher specific gravity than water as the solvent, the liquid to be treated is introduced into the solvent from the lower nozzle and subjected to electrostatic treatment. Thereafter, it can be taken out from the treated water outlet provided at the upper end of the upper pocket. The sludge layer formed at the interface between the solvent and the treated water may be taken out from an intermediate layer outlet provided at the lower end of the upper pocket.

In the apparatus of the present invention, as described above, the electrodes are arranged such that a columnar, columnar, rod-like, or plate-like electrode is arranged at the center of the tank, and the periphery thereof is surrounded by another electrode. A high-voltage direct current is applied to one of the electrodes to form an electrostatic field, and the water to be treated is designed to pass completely between the pair of electrodes, so that no untreated liquid is generated. It has a structure.

[0015] The inclination of the electrode is determined by the type of the filled solvent and the liquid to be treated. When a solvent having a specific gravity higher than that of water is used, the flow of the liquid to be treated is upward. It is preferable that the tip of is arranged upward,
Also, when using a solvent with a lower specific gravity than water,
Since the flow of the liquid to be treated is downward, it is preferable that the tip of the electrode is disposed downward.

In the apparatus of the present invention, the nozzle for introducing the liquid to be treated into the solvent is preferably an annular nozzle device provided concentrically with the tank. It is preferable that the processing liquid introduced from above is introduced into the solvent from the annular nozzle over the baffle plate provided in an annular shape. In such an annular nozzle device, the liquid to be treated is uniformly introduced into the tank.

Although the electrostatic treatment apparatus of the present invention may be used alone, there are increasing cases where various chemical substances are mixed in factory wastewater, and these wastewaters are completely removed from the water. It is ideal to use several kinds of solvents (extraction solvents) to be charged in the electrostatic treatment apparatus.

[0018] Therefore, if necessary, waste liquid such as factory effluent can be separated into an electrostatic treatment device using a solvent having a lower specific gravity than water and an electrostatic treatment device using a solvent having a higher specific gravity than water.
Electrostatic treatment may be performed sequentially. In this case, the above-described apparatus of the present invention is used as an electrostatic treatment apparatus using a solvent having a specific gravity smaller than that of water. The device of the present invention having a pocket may be used, or a conventional electrostatic treatment device may be used.

In the case of water-soluble coating wastewater and the like, solid components mainly composed of inorganic substances in the paint form flocs due to the action of hydroxide ions generated by the electrolysis treatment, but the flocs are separated from the water. Since the remaining water such as an oil solvent is recognized in the later treated water, it cannot be completely treated. Therefore, in these cases, an electrolysis treatment is performed as a pretreatment, and thereafter, by performing an electrostatic treatment, oils, organic substances, solvents, etc., which are difficult to remove from water, are completely extracted by the electrolysis treatment. After that, complete wastewater purification can be performed by high-voltage electrostatic treatment. The high voltage treatment also enables a bactericidal action.

As a result, it was confirmed that a more reliable drainage treatment was possible by a combination of the electrostatic treatment and the electrolysis treatment. In particular, two types of electrostatic treatment with different types of solvents,
Electrostatic treatment A (solvent-water having a higher specific gravity than the water filled in the tank, for example, perchlorethylene) and electrostatic treatment B
(The specific gravity is smaller than the solvent-water filled in the tank.
It has been confirmed that by combining the electrolysis treatment with, for example, a hydrocarbon-based solvent), wastewater treatment that has been impossible with the conventional method can be performed. Any wastewater can be treated sufficiently.

The electrolysis apparatus for this purpose has an inlet and an outlet for the liquid to be treated before and after the treatment tank, and a plurality of electrode plates are provided in the treatment tank with the front and rear walls of the treatment tank. And the electrode plates are alternately fixed to one of the left and right walls of the processing tank, and are attached so that a certain space exists between the electrode plates and the other. By using a solution in which the liquid to be treated passes through the space between the electrode plates in a zigzag manner and is subjected to electrolysis, continuous and efficient electrolysis can be performed. In this case, the electrode plates alternately function as anodes or cathodes.

Although the apparatus of the present invention is not particularly limited, it is preferable to divide the tank into three parts, an upper part, a middle part, and a lower part, so that the tank can be assembled. In this case, the electrode is disposed in the center, and this center can be applied to both a tank using a solvent having a lower specific gravity than water and a tank using a solvent having a higher specific gravity than water.

In the apparatus of the present invention, it is preferable that all the pipes leading to the tank pass through a position above the deaeration valve at the top of the tank so that gas does not enter the tank.

The optimum distance between the electrodes differs depending on the characteristics of the solvent filled in the electrostatic treatment device. For example, if perchlorethylene having a specific gravity greater than water is between 2 and 4 mm per KV between the anode and the cathode is most suitable, while the specific gravity is smaller than that of water, such as normal hexane. Is KV between the cathode and anode electrodes.
It has been confirmed that 1 to 3 mm is appropriate.

[0025]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention will be described based on embodiments shown in the drawings, but the present invention is not limited thereto. In the apparatus shown in FIG. 1, a pair of electrodes 4a and 4b are arranged in an electrically insulating solvent 2 filled in a tank 1, a high-voltage DC voltage is applied between the electrodes, and a liquid 3 to be treated is passed between the electrodes. The liquid 1 to be treated is electrostatically treated to remove contaminants in the liquid to be treated. The tank 1 is a sealed tank provided with a deaeration valve 5 at the top. . At the upper part of the tank 1, a nozzle 6 for introducing a liquid to be treated is provided.
Are provided, and the electrodes 4a, 4b
The one electrode 4a is attached to an electrode holder 12 suspended from the top in the center of the tank, and the other electrode 4b is attached so as to be in close contact with the inner wall of the tank. I have. The tips of the electrodes 4a and 4b are arranged downward because the liquid 3 to be treated flows downward from the upper nozzle 6. In addition, a pocket 7 is provided below the tank 1 with an outer wall of the tank as a partition plate.
Is provided, so that the pocket 7 and the inside of the tank communicate with each other in the middle and / or below the pocket,
At the upper end of the pocket 7, a treated water outlet 8 is provided,
In addition, a sludge outlet 9 is provided at the bottom of the tank. The solvent is introduced from a solvent inlet 10 provided on the tank side wall, and can be discharged from a solvent outlet 11 as needed.

In such an apparatus, the tank is filled with a solvent having a low specific gravity, such as n-hexane, and the liquid to be treated 3 introduced from the nozzle 6 is passed through the tank from the top to the bottom to form electrodes 4a, 4b
The organic or inorganic substance contained in the liquid to be treated 3 is separated from water, and the treated water 15 collected at the bottom of the tank 1 is discharged from the treated water outlet 8 at the upper end of the pocket 7. Can be taken out.

In this apparatus, a volatile and flammable solvent is used, but since a degassing valve 5 is provided at the top of the tank 1, gas is discharged to the outside of the tank 1 and the inside of the tank 1 is discharged. Since the solvent can be filled up to the top, there is no danger of the solvent igniting or exploding inside the tank 1, and stable processing can be performed.

The nozzle 6 is formed in an annular shape, and the liquid 3 introduced from the liquid inlet 13 is
Since the solvent is introduced into the solvent from the annular nozzle 6 beyond the baffle plate 14 provided around the annular nozzle 6, the solvent flows evenly into the tank 1 and efficient processing can be performed. Become.

The suspended matter generated at the interface between the solvent 2 and the treated water 15 is removed from the sludge discharge port 16 provided at the interface.
Is discharged to the outside. Further, the sludge layer settled at the bottom of the tank 1 is taken out from the sludge discharge port 17.

Next, according to the purpose, the apparatus shown in FIG. 2 may use either a solvent having a specific gravity greater than that of water or a solvent having a smaller specific gravity as water,
It has been made usable. A pair of electrodes 4a and 4b are arranged in an electrically insulating solvent 2 filled in a tank 1, a high-voltage DC voltage is applied between the electrodes, and a liquid 3 to be treated is applied between the electrodes.
a or 3b, the liquid to be treated 3a or 3b is electrostatically treated to remove contaminants in the liquid to be treated. This tank 1 is removed to the top similarly to the apparatus shown in FIG. It is a sealed tank provided with the air valve 5. A nozzle 6a for introducing the liquid to be treated is provided at the upper part and the lower part of the tank 1, respectively.
And 6b. Both are annular nozzles, and the upper nozzle 6a flows out the liquid to be treated 3a downward,
The lower nozzle 6b flows out the liquid to be treated 3b upward. In this apparatus, a pocket 7a, a treated water discharge port 8a, a sludge outlet 9 and the like similar to the tank of FIG. 1 are provided at a lower portion, and a specific gravity higher than water as a solvent is also provided at an upper portion. There is provided a pocket 7b for when using. Above the upper pocket 7b is provided a treated water outlet 8b for using a solvent having a specific gravity higher than that of water as a solvent, and a sludge outlet 16b is provided at the lower end of the pocket 7b. Is provided. The electrodes 4a and 4b are arranged in the center of the tank 1. In this device, the tank 1
It can be divided, and if necessary, the electrode 4
a and 4b can be exchanged. When a solvent having a specific gravity smaller than that of water is used, the tip of the electrode is arranged downward, as in the apparatus of FIG. 1. When a solvent having a specific gravity greater than water is used, the tip of the electrode is used. Should be arranged upward.

When a solvent having a specific gravity lower than that of water is used, the apparatus is filled with the solvent to the top and the annular nozzle 6 is used.
The liquid 3a to be treated is introduced into the solvent from a, and the treatment can be carried out in the same manner as in the case of the apparatus of FIG. 1, but if necessary, a solvent having a higher specific gravity than water can be used. In the latter case, a solvent such as perchlor ethylene is poured above the tank 1 and the upper end 18 of the inner wall of the tank 1 through which the liquid inside the tank 1 flows out to the pocket 7b, similarly to the conventional electrostatic treatment apparatus.
The liquid to be processed 3b is introduced into the tank from a lower nozzle 6b. Liquid to be treated 3b
The water passes between the electrodes 4a and 4b provided in the middle part of the tank, and the water subjected to the electrostatic treatment and purified is discharged from the treated water discharge port 8b above the pocket 7b. Solvent 2 and treated water 15
Suspended matter generated at the boundary surface flows down into the pocket 7b,
The sludge is discharged from the sludge discharge port 16b.

In the present invention, as shown in FIG. 3, an electrostatic treatment apparatus A using a solvent having a higher specific gravity than water and an electrostatic treatment apparatus B using a solvent having a lower specific gravity than water, using various waste liquids as liquids to be treated. In this case, there is an advantage that a substance that could not be completely extracted and removed by the apparatus A from the liquid to be treated can be continuously and completely removed by the apparatus B.

For example, when the treatment liquid is a chemical tanker waste liquid, it contains phenol, alcohol, and oil. The apparatus A using perchlorethylene can remove oil and petroleum solvents, but completely removes alcohol and phenol. Can not. However, subsequently, in the apparatus B using phenol, phenol, alcohol and the like can be almost completely removed.

In the treatment method using the apparatus of the present invention, it is preferable that the treatment liquid is treated with an electrolysis treatment apparatus before or after the electrostatic treatment to completely remove suspended substances contained in the treatment liquid. (See FIG. 4).

As shown in FIG. 5, an electrolysis treatment apparatus for this purpose has an inlet 20 and an outlet 21 for a liquid to be treated before and after a treatment tank 19, and a plurality of sheets are provided in the treatment tank. Electrode plates 22 are present at regular intervals in parallel with the front and rear walls of the processing tank, and these electrode plates 22 are alternately fixed to one of the left and right walls of the processing tank 19, and between the other. It is preferable to use the one which is attached so that a certain space 23 exists. In this case, the liquid to be processed is efficiently and continuously electrolyzed through the electrode plates 22 in a zigzag manner. In the example of FIG. 5, the electrode plates 22 alternately function as anodes or cathodes. A baffle plate 24 is provided before and after the processing layer 19.

The aqueous solution of the water-soluble coating was electrolyzed by the electrolysis apparatus of FIG. 5 for 30 minutes, and then subjected to electrostatic processing using n-hexane as a solvent in the electrostatic processing apparatus of FIG. Drainage becomes possible, and as the final treated water,
Very purified water was obtained. Raw water Final treatment water Measuring method CODMn 7,600 (mg / L) 140 (mg / L) JIS K 0102 17 Suspended substances (SS) 2,300 (mg / L) <1 (mg / L) Announcement of the Environment Agency Notification No. 59, Appendix 8 n-Hexane 520 (mg / L) <1 (mg / L) Table 4 of the Notification of the Environment Agency No. 64

[0037]

According to the present invention, the gas or air in the tank can be automatically removed from the tank by making the tank a closed type and arranging a deaeration valve at the top of the tank. , It is possible to fill even the solvent with explosive properties into the tank for electrostatic treatment,
Any solvent can be used as the extraction solvent. By expanding the choice of the solvent to be filled, the solvent having the best extraction effect can be used as the extraction solvent in accordance with the characteristics of the substance contained in the wastewater. Furthermore, it is possible to use a combination of electrostatic treatment apparatuses filled with different solvents, and as a result, it is possible to treat wastewater, which was conventionally impossible to completely treat, and the width of the object to be subjected to the electrostatic treatment is increased. Spreads.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an example of the device of the present invention.

FIG. 2 is a sectional view showing another example of the device of the present invention.

FIG. 3 is an explanatory diagram showing an example of use of the device of the present invention.

FIG. 4 is an explanatory diagram showing an example of use of the device of the present invention.

FIGS. 5A and 5B show an example of an electrolysis apparatus used in an example of the present invention, wherein FIG. 5A is a cross-sectional view and FIG.

[Explanation of symbols]

 Reference Signs List 1 tank 2 solvent 3 liquid to be treated 4a, 4b electrode 5 degassing valve 6 nozzle 7 pocket 8 treated water outlet 9 sludge outlet 10 solvent inlet 11 solvent outlet 12 electrode holder 13 liquid inlet 14 obstruction Plate 15 Treated water 16 Sludge discharge port 17 Sludge discharge port 18 Upper end of inner wall 19 Treatment tank 20 Inlet port 21 Discharge port 22 Electrode plate 23 Space 24 Baffle plate

Claims (6)

[Claims] 1. A liquid to be treated is disposed by disposing a pair of electrodes in an electrically insulating solvent layer filled in a tank, applying a high-voltage DC voltage between the electrodes, and passing the liquid to be treated between the electrodes. It is a closed type tank that performs electrostatic treatment to remove contaminants in the liquid to be treated, the tank is provided with a deaeration valve at the top, and a nozzle for introducing the liquid to be treated is provided at the top of the tank. Being provided, in the middle part of the tank, the pair of electrodes are arranged, one of which is located at the center of the tank, and the other electrode has airtightness between the tank and the inner wall. In this state, it is arranged so as to entirely surround the periphery of the one electrode, and a lower portion of the tank is provided with a pocket having a partition plate on the outer wall of the tank below. To communicate in the middle and / or below the pocket That the treated water discharge port is provided at the upper end of the pocket, and that the sludge outlet is provided at the bottom of the tank, and that the side wall of the tank where the solvent is filled, A closed type electrostatic treatment apparatus wherein a solvent having a lower specific gravity than water can be used as a solvent, wherein a solvent inlet and an outlet are provided. 2. A pair of electrodes are arranged in an electrically insulating solvent layer filled in a tank, a high-voltage DC voltage is applied between the electrodes, and an aqueous liquid to be processed is passed between the electrodes.
This is a process to remove contaminants in the liquid to be treated by electrostatically treating the liquid to be treated.The tank is a hermetically sealed tank with a degassing valve at the top. A liquid introduction nozzle is provided, and the pair of electrodes are disposed in the middle of the tank, one of which is located at the center of the tank, and the other is located between the tank inner wall. In a state having confidentiality, it is arranged so as to entirely surround the periphery of the one electrode, and a lower portion and an upper portion of the tank are provided with a pocket having an outer wall of the tank as a partition plate below, The pocket and the inside of the tank are to communicate with each other in the middle part of the pocket, the upper part of the upper pocket and the upper part of the lower pocket are provided with treated water discharge ports, and the bottom of the tank And dirt on the lower edge of the upper pocket Or, an intermediate layer outlet is provided, and a solvent inlet and an outlet are provided on the side wall of the tank where the solvent is filled, and the solvent having a lower specific gravity than water is used as the solvent. A closed electrostatic treatment device that can use solvents with higher specific gravity. 3. The nozzle comprises an annular nozzle device provided concentrically with a tank, wherein the nozzle device is provided with a processing liquid introduced from a processing liquid introduction port in an annular shape. 3. The sealed electrostatic treatment apparatus according to claim 1, wherein the closed electrostatic treatment apparatus is adapted to be introduced into the solvent from the annular nozzle over the baffle plate. 4. An electrostatic treatment apparatus using a solvent having a lower specific gravity than water and an electrostatic treatment apparatus using a solvent having a higher specific gravity than water, using a waste liquid as a liquid to be treated. A waste liquid treatment method using the apparatus according to any one of claims 1 to 3 as an electrostatic treatment apparatus using a solvent having a lower specific gravity than water. 5. The waste liquid treatment method according to claim 4, wherein the waste liquid is subjected to an electrolysis treatment to remove suspended substances contained in the waste liquid and then to perform electrostatic treatment. 6. The electrolysis treatment apparatus has an inlet and an outlet for a liquid to be treated before and after the treatment tank, and a plurality of electrode plates are provided on the front and rear walls of the treatment tank in the treatment tank. The electrode plates are present at regular intervals in parallel, and the electrode plates are alternately fixed to one of the left and right walls of the processing tank, and are mounted so as to have a certain space between them. And
The liquid to be treated is designed to be electrolyzed by zigzag between the electrode plates, and the electrode plates alternately function as anodes or cathodes. Wastewater treatment method.