JP2002355684A - Wastewater treatment method and apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To rapidly and efficiently decompose a harmful substance contained in wastewater by both of ozone and hydrogen peroxide. SOLUTION: In the wastewater treatment method, wastewater, ozone and hydrogen peroxide are together sucked by a pump and this pump generates cavitation along with a rotary impeller to treat wastewater with ozone and hydrogen peroxide. The wastewater treatment apparatus is equipped with a container 1 storing wastewater, the cavitation pump 2 connected to the suction side of the container 1 to transfer the wastewater of the container 1 by the rotary impeller, an ozone feeder 3 for supplying ozone to the suction side of the cavitation pump 2 and a hydrogen peroxide feeder 4 for supplying hydrogen peroxide to the suction side of the cavitation pump 2. In the wastewater treatment apparatus, wastewater, ozone and hydrogen peroxide are sucked to be fed under pressure while generating cavitation by the cavitation pump 2 and wastewater is treated with both of ozone and hydrogen peroxide to be transferred.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a wastewater treatment method and apparatus most suitable for treating agricultural wastewater.

[0002]

2. Description of the Related Art An enormous amount of agricultural wastewater is generated nationwide. For example, during rice planting, large amounts of agricultural wastewater containing the fungicides used to sterilize rice seeds are generated. It is by no means desirable that this wastewater is discarded as it is without being treated. At present, activated carbon is used as a method for treating this wastewater. When agricultural wastewater is passed through activated carbon, harmful substances are adsorbed and removed.
However, this method has a very high running cost and cannot be practically adopted at all. For this reason, a technology that can be economically processed is eagerly desired.

[0003] As a method for decomposing harmful substances contained in wastewater, a method using ozone and hydrogen peroxide has been developed. The method using ozone and hydrogen peroxide has a feature that it can effectively decompose harmful substances that cannot be decomposed by ozone alone. The apparatus used in this method is described in, for example, the following publication. JP-A-58-166895 JP-A-55-56889 JP-A-11-156375 JP-A-8-192198

The apparatus described in the above publications injects gaseous ozone into the bottom of a tank. Hydrogen peroxide is also supplied to the tank. Ozone and hydrogen peroxide supplied to the tank decompose and treat harmful substances contained in wastewater inside the tank. This device injects ozone to the bottom of the tank, floats the ozone on the wastewater in the tank, and agitates the wastewater. With this structure, it is difficult to stir ozone, hydrogen peroxide and wastewater in an ideal state. In order for ozone and hydrogen peroxide to efficiently decompose the effective components of the wastewater, sufficient stirring is required.

The apparatus described in the above publication supplies ozone and hydrogen peroxide to the discharge side of a pump for transferring wastewater.
The discharge side of the pump is connected to a tank, and wastewater to which ozone and hydrogen peroxide are added is supplied to the tank. Further, a stirrer is provided at the bottom of the tank to forcibly agitate the wastewater in the tank.

[0006]

The apparatus described in the above publication forcibly agitates the wastewater, but in an ideal state, ozone and hydrogen peroxide cannot decompose the effective components of the wastewater. This is because the blades of the stirrer stir the wastewater, ozone and hydrogen peroxide together.

[0007] The present invention has been developed to solve the drawbacks of the conventional device. An important object of the present invention is to provide a wastewater treatment method and apparatus capable of quickly and efficiently decomposing and treating harmful substances contained in wastewater with both ozone and hydrogen peroxide.

[0008]

According to the present invention, wastewater, ozone and hydrogen peroxide are sucked into a pump together, and the pump generates cavitation by a rotating impeller to produce ozone and hydrogen peroxide. To treat wastewater.

In the wastewater treatment method of the present invention, the flow rate can be adjusted on the suction side or the discharge side of the pump. further,
In the wastewater treatment method, ozone can be supplied to the suction side of the pump in a gaseous state or in an ozone water state in which ozone is dissolved. Furthermore, in the wastewater treatment method, wastewater can be stored in the container 1 and the wastewater in the container 1 can be circulated by the pump to treat the wastewater.

The wastewater treatment apparatus of the present invention includes a container 1 for storing wastewater, a cavitation pump 2 having a suction side connected to the container 1, and transferring the wastewater stored in the container 1 while causing cavitation by a rotating impeller. An ozone supply unit 3 connected between the cavitation pump 2 and the container 1 to supply ozone to the suction side of the cavitation pump 2, and an ozone supply unit 3 connected between the pump and the container 1 and connected to the suction side of the cavitation pump 2 A hydrogen peroxide supplier 4 for supplying hydrogen peroxide. This wastewater treatment device,
The cavitation pump 2 sucks and pumps wastewater, ozone and hydrogen peroxide while generating cavitation, and treats and transfers wastewater with both ozone and hydrogen peroxide.

In the wastewater treatment apparatus of the present invention, a throttle valve 5 for restricting a flow rate can be connected to the suction side or the discharge side of the cavitation pump 2. Further, in the wastewater treatment apparatus, the discharge side of the cavitation pump 2 is connected to the container 1, and the wastewater in the container 1 can be sucked by the cavitation pump 2 and returned to the container 1 for circulation.

According to the present invention, ozone and hydrogen peroxide are added to the suction side of a pump for transferring wastewater. In addition, the pump transfers wastewater, ozone and hydrogen peroxide while cavitation occurs in the rotating impeller. When cavitation occurs, countless bubbles are generated. The generated bubbles burst in the wastewater to generate ultrasonic waves. The ultrasonic waves give a strong impact to the wastewater that corrodes even metals. In addition, the bubbles that repeatedly generate and disappear stir the wastewater efficiently locally. The wastewater transferred in this state is
The harmful substances are decomposed very efficiently and quickly by the added ozone and hydrogen peroxide. In addition, since the cavitation pump 2 transfers wastewater, the cavitation pump 2 can also send wastewater from which harmful substances have been removed to a predetermined portion.

[0013]

Embodiments of the present invention will be described below with reference to the drawings. However, the following examples illustrate a wastewater treatment method and apparatus for embodying the technical idea of the present invention, and the present invention does not specify a wastewater treatment method as follows.

Further, in this specification, in order to make it easy to understand the claims, the numbers corresponding to the members shown in the embodiments will be referred to as “claims” and “ In the column of “means”. However, the members described in the claims are not limited to the members of the embodiments.

The wastewater treatment apparatus shown in FIG. 1 has a container 1 for storing wastewater and a suction side connected to the container 1.
A cavitation pump 2 for transporting wastewater stored in the cavitation while causing cavitation, an ozone supply device 3 connected between the cavitation pump 2 and the container 1 and supplying ozone to a suction side of the cavitation pump 2,
A hydrogen peroxide supply device 4 is connected between the cavitation pump 2 and the container 1 and supplies hydrogen peroxide to the suction side of the cavitation pump 2.

The container 1 stores wastewater such as agricultural wastewater. The wastewater stored here is repeatedly circulated through the container 1 and the cavitation pump 2 to decompose and remove harmful substances contained in the wastewater. This device and method have the characteristic that the harmful substances can be decomposed less by passing through the cavitation pump 2 many times. However, according to the present invention, it is not always necessary to store wastewater in the container 1 and repeatedly circulate the wastewater through the cavitation pump 2. For example, the wastewater can be passed through the cavitation pump 2 once to remove harmful substances. This method can be used, for example, in the treatment of wastewater with a low concentration of harmful substances, or in applications in which the concentration of harmful substances does not need to be reduced significantly.

The cavitation pump 2 sucks and transfers wastewater to which ozone and hydrogen peroxide are added, while causing cavitation by a rotating impeller. The cavitation pump 2 is a centrifugal pump. However, as the cavitation pump, any pump that can transfer wastewater with a rotating impeller, such as a cascade pump or a turbine pump, can be used. The rotating impeller can cause cavitation by restricting the flow rate on the suction side or the discharge side by the throttle valve 5. As the throttle valve 5, one that can adjust the flow rate, that is, one that can adjust the opening degree, which is the size of the flow path, is used. When the throttle valve 5 is throttled to reduce the flow rate, the occurrence of cavitation increases. The throttle valve 5 is preferably connected to the discharge side of the cavitation pump 2. When the throttle valve 5 on the discharge side restricts the flow to restrict the flow rate to a small value, the pressure on the discharge side of the cavitation pump 2 increases, and the harmful substances can be decomposed more quickly with ozone and hydrogen peroxide.

The cavitation pump 2 can also cause cavitation with an impeller by sucking gas into the suction side. In the present invention, since ozone is sucked into the suction side, cavitation can be caused by inhaling ozone-containing gas containing ozone. As the ozone-containing gas, a mixed gas of oxygen and ozone, a mixed gas of air and ozone, a mixed gas of nitrogen and ozone, or the like can be used.
According to this method, the amount of cavitation can be adjusted by the amount of the ozone mixed gas to be sucked.

The ozone supplier 3 passes oxygen during discharge to ozone. The ozone supply device 3 generates an ozone mixed gas in which ozone is mixed with oxygen, and supplies this gas to the suction side of the cavitation pump 2. However, the ozone supplier 3 can mix ozone with a gas other than oxygen and supply it to the suction side of the cavitation pump 2. The ozone supplier 3 can also supply ozone to the suction side of the cavitation pump 2 in a state of ozone water in which ozone is dissolved in water. The ozone supplier 3 is connected to the suction side of the cavitation pump 2 via a check valve 6. The check valve 6 prevents the wastewater from flowing back to the ozone supply device 3. The ozone supplier 3 can supply the ozone mixed gas containing ozone to the suction side of the cavitation pump 2 without pressurizing. This is because the pressure on the suction side of the cavitation pump 2 is a negative pressure lower than the atmospheric pressure. The suction side of the cavitation pump 2 is sucked into the cavitation pump 2 and has a negative pressure, and the wastewater flows at a high speed and further has a negative pressure.

The hydrogen peroxide supply device 4 supplies hydrogen peroxide in a state of a hydrogen peroxide solution. The hydrogen peroxide supplier 4 is also connected to the suction side of the cavitation pump 2 via a check valve 7. This is to prevent the wastewater from flowing back to the hydrogen peroxide supply device 4. The hydrogen peroxide supply device 4 can also supply the hydrogen peroxide solution to the suction side of the cavitation pump 2 without pressurizing. This is because the supply side of the cavitation pump 2 has a negative pressure and sucks the hydrogen peroxide solution.

However, the ozone supplier and the hydrogen peroxide supplier can be connected to the suction side of the cavitation pump via a constant flow pump. The constant flow pump supplies the ozone and the hydrogen peroxide supplied to the cavitation pump while controlling the flow rates thereof to optimal values. This method and apparatus
The flow rate of the wastewater is detected by a flow sensor, and ozone and hydrogen peroxide are supplied at a constant flow rate relative to the flow rate of the wastewater, so that harmful substances in the wastewater can be decomposed in an ideal state. Instead of a constant flow pump, a flow control valve that can control the flow can be used. The constant flow pump is connected between the ozone supply and the suction side of the cavitation pump, and is connected between the hydrogen peroxide supply and the suction side of the cavitation pump. The flow control valve adjusts the opening to adjust the flow rate of ozone or hydrogen peroxide supplied to the cavitation pump.

The above wastewater treatment apparatus treats wastewater as follows. In the container 1, wastewater containing harmful substances such as agricultural wastewater containing a disinfectant or the like after disinfecting the seeds is stored. The cavitation pump 2 is operated to supply ozone and hydrogen peroxide to the suction side of the cavitation pump 2 from the ozone supply device 3 and the hydrogen peroxide supply device 4. The cavitation pump 2 sucks the wastewater to which ozone and hydrogen peroxide are added, and transfers the wastewater while generating cavitation with a rotating impeller. When passing through the cavitation pump 2, the ozone, hydrogen peroxide and wastewater are vigorously stirred, depressurized and pressurized repeatedly, and further subjected to ultrasonic impact. Under this condition, harmful substances contained in the wastewater are quickly and efficiently decomposed by both ozone and hydrogen peroxide. In the illustrated device, the discharge side of the cavitation pump 2 is connected to the container 1, so that the cavitation pump 2
Is returned to the container 1 again. That is, the wastewater repeatedly circulates from the container 1 → the cavitation pump 2 → the container 1. By repeatedly passing through the cavitation pump 2, harmful substances contained in the wastewater are efficiently decomposed.

[0023]

Industrial Applicability The wastewater treatment method and wastewater treatment apparatus of the present invention are characterized in that harmful substances contained in wastewater can be quickly and efficiently decomposed and treated with both ozone and hydrogen peroxide. That is, the wastewater treatment method and wastewater treatment device of the present invention are:
This is because the wastewater, the ozone and the hydrogen peroxide are sucked together into the pump, and the pump causes cavitation by the rotating impeller to transfer the wastewater while treating the wastewater with both the ozone and the hydrogen peroxide. As described above, the wastewater treatment method and wastewater treatment apparatus of the present invention in which cavitation is generated by the rotating impeller of the pump uses the countless bubbles generated in cavitation while using the pump for stirring the wastewater, and converts the wastewater into wastewater. The contained harmful substances can be decomposed very efficiently and quickly with ozone and hydrogen peroxide.

Further, since the wastewater treatment method and wastewater treatment apparatus of the present invention generate cavitation using an impeller of a pump for transferring wastewater, the wastewater can be efficiently transferred to a predetermined place while efficiently removing harmful wastewater. There is a feature that can remove substances.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of a wastewater treatment apparatus according to one embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Container 2 ... Cavitation pump 3 ... Ozone supply unit 4 ... Hydrogen peroxide supply unit 5 ... Throttle valve 6 ... Check valve 7 ... Check valve

 ────────────────────────────────────────────────── ─── Continued on front page (72) Inventor Yoshie Yamato 4-10-19 Sumiyoshi, Tokushima City, Tokushima Prefecture F-term (reference) 4D037 AA11 AB18 BA26 CA11 4D050 AA12 BB02 BB09 BD03 BD06 CA20

Claims (7)

[Claims] 1. A wastewater treatment method in which wastewater, ozone and hydrogen peroxide are sucked into a pump together, and cavitation is caused by an impeller that rotates the pump to treat the wastewater with ozone and hydrogen peroxide. 2. The wastewater treatment method according to claim 1, wherein the flow rate is adjusted on a suction side or a discharge side of the pump. 3. The wastewater treatment method according to claim 1, wherein ozone is supplied to the suction side of the pump in a gaseous state or is supplied in an ozone water state in which ozone is dissolved. 4. A wastewater treatment method in which wastewater is stored in a container (1), and the wastewater in the container (1) is circulated by a pump to treat the wastewater. 5. A container (1) for storing wastewater, and a suction side connected to the container (1), and a cavitation pump (2) for transferring the wastewater stored in the container (1) while causing cavitation by a rotating impeller. ), An ozone supply unit (3) connected between the cavitation pump (2) and the container (1) to supply ozone to the suction side of the cavitation pump (2).
A hydrogen peroxide supply unit (4) connected between the pump and the container (1) to supply hydrogen peroxide to the suction side of the cavitation pump (2), and the cavitation pump (2) performs cavitation. A wastewater treatment device that sucks and pumps wastewater, ozone and hydrogen peroxide while raising, and treats and transfers wastewater with both ozone and hydrogen peroxide. 6. The wastewater treatment apparatus according to claim 5, wherein a throttle valve (5) for restricting a flow rate is connected to a suction side or a discharge side of the cavitation pump (2). 7. The discharge side of the cavitation pump (2) is connected to the container (1), and the cavitation pump (2) sucks waste water from the container (1) and circulates the wastewater to the container (1). The wastewater treatment device according to claim 5.