JP3209848B2 - Method and apparatus for removing residual chlorine for wastewater treatment facility - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for removing residual chlorine for wastewater treatment facilities.

[0002]

2. Description of the Related Art In recent years, with the development of large-scale resorts, examples of constructing large-scale domestic wastewater treatment facilities have become prominent. At this time, local fishery associations and the like often require very strict standards for the quality of wastewater discharged from the standpoint of protecting fishery resources.

[0003] In the treatment of wastewater from domestic sewage,
Since the treated sewage contains pathogenic bacteria, the law requires disinfection with chlorine. Generally, a method for reducing BOD and COD in wastewater has been technically established, but a technique for removing residual chlorine has not been established.

In the conventional chlorination, sodium hypochlorite (NaClO) or calcium hypochlorite [Ca (OCl) ₂ ] is used as a disinfectant, and ₂ to 8 m of treated wastewater is used.
A method is employed in which g / l is injected, and after contact mixing for about 15 minutes, a chlorine ion concentration of about 0.5 mg / l is finally secured.

[0005] Chlorine in water hydrolyzes as follows. _{Cl 2 + H 2 O → HClO} + H + + Cl - ··· (1) formula ^{HClO → H + + ClO - ···} (2) the formula

[0006]

However, the effect of the residual chlorine content in the effluent water after chlorination treatment on the surrounding water environment is becoming a problem.

[0007] This is thought to be due to the fact that free chlorine, which has a strong bactericidal property and is released in an untreated state during chlorine disinfection, impairs the balance of the surrounding ecosystem. As a solution to this problem, there is an urgent need for a disinfection method that does not use chlorine, but a practical method has not been developed at present.

The present invention has been made to solve such conventional problems, and an object of the present invention is to reduce the chlorine in wastewater to an extremely low concentration, thereby reducing the influence on the surrounding environment. It is an object of the present invention to provide a method and an apparatus for removing residual chlorine for wastewater treatment facilities.

[0009]

According to a first aspect of the present invention, there is provided a method for removing residual chlorine in a wastewater treatment facility, comprising: placing the wastewater in a disinfecting tank and injecting a chlorine disinfectant;
Stored in a tank to volatilize chlorine in wastewater, free salt in wastewater
Sodium thiosulfate in a neutralization tank
And a step of neutralizing by adding
Measure the chloride ion concentration in the wastewater sent to the tank,
Inject a chlorine disinfectant when the on-concentration is 0.5 ppm or less
With chlorine ion concentration of 1.0ppm or more
Stop injection of agent, chloride ion concentration is less than 0.5 ppm
Return the wastewater in the aeration tank to the disinfection tank,
At 0.5 ppm or more, return the wastewater in the aeration tank to the disinfection tank
Is stopped, and chlorine ions in the wastewater sent from the aeration tank to the neutralization tank are stopped.
Measure the ON concentration and the chloride ion concentration is 0.1ppm or less
In this case, the aeration tank was stopped and the chlorine ion concentration was 1.0 ppm or less.
Above, the wastewater in the neutralization tank is returned to the aeration tank and discharged from the neutralization tank
Measure the chloride ion concentration in the wastewater
When the concentration is 0.05 ppm or more, sodium thiosulfate is added to the neutralization tank.
And the chlorine concentration in the wastewater is reduced to 0.05 to 0.1 pp.
m .

[0010] According to a second aspect of the present invention, there is provided a residual chlorine removing apparatus for a wastewater treatment facility, comprising: a disinfecting tank for storing wastewater and injecting a chlorine disinfectant; An aeration tank that stores the wastewater injected with the chlorine disinfectant and volatilizes the chlorine in the wastewater, an aeration blower that communicates with the aeration tube of the aeration tank, a first return line connecting the aeration tank and the disinfection tank, A first return pump disposed in the tank, a neutralization tank for adding sodium thiosulfate to the wastewater and performing a neutralization treatment,
A second return line connecting the neutralization tank and the aeration tank, a second return pump disposed in the neutralization tank, and a neutralizing agent that communicates with the neutralizing tank and supplies sodium thiosulfate by a neutralizing agent injection pump. Tank, a first line provided with a first chlorine ion meter connecting the disinfection tank and the aeration tank, a second line provided with a second chlorine ion meter connecting the aeration tank and the neutralization tank, and neutralization. A discharge line provided downstream of the tank and provided with a third chlorine ion meter, a chlorine injection pump, an aeration blower, a first return pump, a second return pump, a neutralizer injection pump, a first chlorine ion meter, and a second chlorine ion meter. It communicates with the chlorine ion meter and the third chlorine ion meter, and issues a command to turn on the chlorine injection pump when the chlorine ion concentration in the first chlorine ion meter is 0.5 ppm or less. 1.0p
At pm or more, a command to turn off the chlorine injection pump is issued, and when the chlorine ion concentration at the first chlorine ion meter is less than 0.5 ppm, a command to turn on the first return pump is issued, and the chlorine ion concentration at the first chlorine ion meter is issued. When the concentration is 0.5 ppm or more, a command to turn off the first return pump is issued. When the chlorine ion concentration in the second chloride ion meter is 0.1 ppm or less, a command to turn off the aeration blower is issued. A controller that issues a command to turn on the second return pump when the ion concentration is 1.0 ppm or more and a command to turn on the neutralizer injection pump when the chloride ion concentration in the third chloride ion meter is 0.05 ppm or more. It is composed.

[0011]

According to the method for removing residual chlorine for a wastewater treatment facility according to the first aspect, first, a chlorine disinfectant is injected into wastewater in a disinfection tank.

Next, the wastewater into which the chlorine disinfectant has been injected is sent from the disinfection tank to the aeration tank. Wastewater sent from the disinfection tank to the aeration tank
The chloride ion concentration in the water is measured, and the chloride ion concentration is set to 0.
At 5 ppm or less, inject chlorine disinfectant and
If chlorine concentration is 1.0ppm or more, stop injection of chlorine disinfectant
However, if the chloride ion concentration is less than 0.5 ppm,
Return the wastewater to the disinfection tank and make sure the chlorine ion concentration is 0.5 ppm or less.
Above, stop returning the wastewater in the aeration tank to the disinfection tank. In the aeration tank, air is blown out from the air diffuser and the above (1)
Free chlorine (HClO, ClO ⁻ ) in the effluent is reduced by stripping off the Cl ₂ of the formula and moving the chemical equilibrium to the left.

[0013] Chlorine in wastewater sent from the aeration tank to the neutralization tank
Measure the ion concentration and check that the chloride ion concentration is 0.1 ppm or less.
Under the aeration tank was stopped, and the chlorine ion concentration was 1.0 ppm
In the above, the wastewater in the neutralization tank is returned to the aeration tank, and discharged from the neutralization tank.
Measure the chloride ion concentration in the drained water,
When the concentration is 0.05 ppm or more, sodium thiosulfate is added to the neutralization tank.
And the chlorine concentration in the wastewater is adjusted to 0.05 to 0.1 p.
pm . According to the second aspect of the present invention, the chlorine removing pump is driven to inject the chlorine disinfectant into the wastewater in the disinfection tank. Next, the wastewater into which the chlorine disinfectant has been injected is sent from the disinfection tank to the aeration tank via the first pipeline.

The concentration of chlorine ions in the wastewater flowing through the first pipeline is measured by a first chlorine ion meter. In the aeration tank, an aeration blower is driven to blow air from a diffuser pipe into drainage. By this aeration treatment, Cl of the above formula (1) is obtained.
The free chlorine (HClO, ClO ⁻ ) in the effluent is reduced by stripping ₂ and moving the chemical equilibrium to the left.

Next, the waste water subjected to the aeration treatment is sent to the neutralization tank via the second pipeline. The chloride ion concentration in the wastewater flowing through the second conduit is measured by a second chloride ion meter. In the neutralization tank, the neutralizing agent injection pump is driven to add sodium thiosulfate to the wastewater for neutralization, thereby reducing the chloride ion concentration to 0.05 to 0.1 ppm or less.

The neutralized waste water is discharged through a discharge pipe. The chloride ion concentration in the wastewater flowing through the discharge pipe is measured by a third chloride ion meter. Then, during the above processing, the control unit receives the sequential detection results from the first chlorine ion meter, the second chlorine ion meter, and the third chlorine ion meter.

The control device performs the following control based on these data. When the chlorine ion concentration in the first chlorine ion meter is 0.5 ppm or less, a command to turn on the chlorine injection pump is issued. This is to ensure the disinfecting effect of the chlorine agent. When the chlorine ion concentration in the first chlorine ion meter is 1.0 ppm or more, a command to turn off the chlorine injection pump is issued. This is to prevent excessive addition of the chlorine agent.

If the chlorine ion concentration in the first chlorine ion meter is less than 0.5 ppm, a command to turn on the first return pump is issued. This is to ensure the disinfecting effect of the chlorine agent. Chlorine ion concentration in the first chloride ion meter is 0.5p
At pm or more, a command to turn off the first return pump is issued. This is to prevent excessive addition of the chlorine agent. When the chlorine ion concentration in the second chlorine ion meter is 0.1 ppm or less, a command to turn off the aeration blower is issued. This is to prevent excessive addition of the chlorine agent.

When the chlorine ion concentration in the second chlorine ion meter is 1.0 ppm or more, a command to turn on the second return pump is issued. This is to prevent excessive addition of the chlorine agent. Chloride ion concentration in the third chloride ion meter is 0.05p
At pm or more, a command to turn on the neutralizer injection pump is issued.
This is to neutralize residual chlorine in the wastewater.

[0020]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the embodiments shown in the drawings. FIG. 1 shows an embodiment of a residual chlorine removing apparatus for a wastewater treatment facility according to claim 2.

In the drawing, reference numeral 1 denotes a disinfection tank. Disinfection tank 1
Is connected to the drain introduction line 2. A chlorine disinfectant tank 3 containing a chlorine disinfectant is connected to the disinfectant tank 1 via a chlorine disinfectant supply line 5. A chlorine injection pump 4 is disposed in the chlorine disinfectant supply line 5.

A first pipeline 6 communicates with the downstream side of the disinfection tank 1. A first chlorine ion meter 7 is disposed in the first conduit 6. The downstream side of the first pipeline 6 communicates with the aeration tank 8.

An aeration tank 8 is provided with an air diffuser 9 and a first return pump 10. The air diffuser 9 communicates with an aeration blower 12 via an air line 11. First return pump 1
Numeral 0 is connected to the first return line 13 connecting the aeration tank 8 and the disinfection tank 1.

A second pipe 14 communicates with the downstream side of the aeration tank 8. A second chlorine ion meter 15 is disposed in the second conduit 14. The downstream side of the second conduit 14 communicates with the neutralization tank 16.

A second return pump 17 is arranged in the neutralization tank 16. The second return pump 17 is connected to a second return line 18 connecting the neutralization tank 16 and the aeration tank 8.

A neutralizing tank 19 containing sodium thiosulfate is connected to the neutralizing tank 16 via a neutralizing agent supply line 20. A neutralizing agent injection pump 21 is disposed in the neutralizing agent supply line 20.

A discharge line 22 is connected downstream of the neutralization tank 16. A third chlorine ion meter 23 is disposed in the discharge line 22. The chlorine injection pump 4, the aeration blower 12, the first return pump 10, the second return pump 17, the neutralizing agent injection pump 21, the first chlorine ion meter 7, the second chlorine ion meter 15, and the third chlorine ion meter 23 are: The control unit 24 is in communication.

The control unit 24 performs the following control based on these data. When the chlorine ion concentration in the first chlorine ion meter 7 is 0.5 ppm or less, the chlorine injection pump 4
Command to turn on.

When the chlorine ion concentration in the first chlorine ion meter 7 is 1.0 ppm or more, a command to turn off the chlorine injection pump 4 is issued. The chlorine ion concentration in the first chlorine ion meter 7 is 0.
If it is less than 5 ppm, a command to turn on the first return pump 10 is issued.

When the chlorine ion concentration in the first chlorine ion meter 7 is 0.5 ppm or more, a command to turn off the first return pump 10 is issued. When the chlorine ion concentration in the second chlorine ion meter 15 is 0.1 ppm or less, a command to turn off the aeration blower 12 is issued.

When the chlorine ion concentration in the second chlorine ion meter 15 is 1.0 ppm or more, a command to turn on the second return pump 17 is issued. When the chlorine ion concentration in the third chlorine ion meter 23 is 0.05 ppm or more, a command to turn on the neutralizing agent injection pump 21 is issued.

Next, the operation of the embodiment constructed as described above will be described. The wastewater is stored in the disinfection tank 1. Then, the chlorine injecting pump 4 is driven, and a chlorine agent of 2 to 8 mg / l is added to the treated wastewater in the same manner as in the conventional case.
From the disinfectant tank 1 through a chlorine disinfectant supply line 5.

As a result, the chlorine disinfectant is mixed into the waste water, and the above equations (1) and (2) are obtained. Next, the wastewater into which the chlorine disinfectant has been injected flows through the first pipe 6 to the disinfection tank 1.
From the aeration tank 8.

The chlorine ion concentration in the wastewater flowing through the first pipeline 6 is sequentially measured by the first chlorine ion meter 7. Based on the data from the first chlorine ion meter 7, the control device 24 controls as follows.

That is, when the chlorine ion concentration measured by the first chlorine ion meter 7 is 0.5 ppm or less, disinfection with the chlorine disinfectant cannot be achieved, and the chlorine injection pump 4 is driven by a command from the control device 24, When the chlorine ion concentration measured by the first chlorine ion meter 7 is 1.0 ppm or more, the chlorine disinfectant becomes excessive. By driving the first return pump 10 in 8, the wastewater in the aeration tank 8 is returned to the disinfection tank 1, and the chlorine ion concentration in the wastewater is reduced.

In the aeration tank 8, air is sent from the aeration blower 12 to the air diffuser 9 and blows out from the air diffuser 9 into drainage. By this aeration treatment, Cl ₂ of the above formula (1) is volatilized, and the chemical equilibrium is advanced to the left, thereby reducing free chlorine (HClO, ClO ⁻ ) in the wastewater.

Next, the waste water subjected to the aeration treatment is supplied to the second pipeline 1
4 to the neutralization tank 16. The chlorine ion concentration in the wastewater flowing through the second conduit 14 is sequentially measured by the second chloride ion meter 15. Based on the data from the second chlorine ion meter 15, the control device 24 controls as follows.

That is, if the chlorine ion concentration by the second chlorine ion meter 15 is 0.1 ppm or less, disinfection with the chlorine disinfectant cannot be achieved, so that the drive of the aeration blower 12 is stopped by a command from the control device 24, and Second chlorine ion meter 15
When the chlorine ion concentration is 0.1 ppm or more, the chlorine disinfectant becomes excessive, so that the second return pump 17 in the neutralization tank 16 is driven by the command from the control device 24, The waste water is returned to the aeration tank 8 to reduce the concentration of chlorine ions in the waste water.

In the neutralization tank 16, the discharge line 22
The chlorine ion concentration by the third chlorine ion
When the concentration is 5 ppm or more, the neutralizing agent injection pump 21 is driven by a command from the control device 24, and the sodium thiosulfate in the neutralizing agent tank 19 is added to the wastewater via the neutralizing agent supply line 20, The concentration is reduced to 0.05 to 0.1 ppm or less by performing a neutralization treatment as in the following equation (3).

The neutralization reaction is as follows. Na ₂ S ₂ O ₃ + 4Cl ₂ + 5H ₂ O → 2NaCl + 2H ₂ SO ₄ + 6HCl (3) The amount of H ₂ SO _{4 on the} right side is extremely small,
₄ ^- dissociated into sodium in sea water, reacts with calcium ions, Na ₂ SO ₄ (borate), CaSO ₄ (gypsum)
Is reduced to harmless substances existing in nature.

The neutralized wastewater is discharged through a discharge line 22. The chlorine ion concentration in the wastewater flowing through the discharge pipe 22 is sequentially measured by the third chlorine ion meter 23 as described above. As described above, according to the present embodiment, the wastewater is put into the disinfection tank 1 and the chlorine disinfectant is injected, and then the aeration tank 2
In the wastewater by aeration treatment to evaporate the chlorine in the wastewater,
After reducing the free chlorine in the wastewater, if the concentration is higher than the specified concentration, sodium thiosulfate is added to neutralize the wastewater. Can be reduced.

In the above embodiment, the apparatus for removing residual chlorine for a wastewater treatment facility according to claim 2 has been described. However, according to the present invention, wastewater is put into a disinfection tank and chlorine is removed. After injecting the disinfectant, store it in an aeration tank, volatilize chlorine in wastewater, reduce free chlorine in wastewater, and then neutralize it by adding sodium thiosulfate. For example, the present invention is not limited to the apparatus shown in FIG.

[0043]

As described above, according to the first and second aspects, chlorine is volatilized by aeration treatment in wastewater disinfected with a chlorine agent. What was 5 to 1.0 ppm, 1/10
It can be reduced below.

The present invention can be an effective countermeasure against water quality standards of domestic wastewater, which is expected to become even more severe in the future, as a system having very little effect on the surrounding environment.

[Brief description of the drawings]

FIG. 1 shows an embodiment of a residual chlorine removing apparatus for a wastewater treatment facility according to claim 2.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Disinfectant tank 3 Chlorine disinfection tank 4 Chlorine injection pump 6 First line 7 First chlorine ion meter 8 Aeration tank 9 Aeration tube 10 First return pump 12 Aeration blower 13 First return line 14 Second line 15 Second chlorine ion meter 16 Neutralization tank 17 Second return pump 18 Second return line 19 Neutralizing agent tank 21 Neutralizing agent injecting pump 22 Discharge line line 23 Third chlorine ion meter 24 Controller

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) C02F 1 / 58,1 / 20,1 / 70

Claims (2)

(57) [Claims] 1. Put waste water into a disinfection tank and inject chlorine disinfectant
Process and the wastewater injected with the chlorine disinfectant is stored in the aeration tank,
Process of volatilizing chlorine and reducing free chlorine in wastewater
And neutralization treatment by adding sodium thiosulfate in the neutralization tank
Process to control the chloride ion concentration in the wastewater sent from the disinfection tank to the aeration tank.
Measure the chlorine ion concentration when the chlorine ion concentration is 0.5 ppm or less.
Inject poison and keep chlorine ion concentration below 1.0 ppm
Above, stop injection of chlorine disinfectant, and chloride ion concentration
If it is less than 0.5 ppm, return the wastewater in the aeration tank to the disinfection tank,
If chlorine ion concentration is 0.5ppm or more, drainage in aeration tank
Of the wastewater sent from the aeration tank to the neutralization tank is stopped.
Measured, when the chlorine ion concentration is 0.1ppm or less, aeration tank
Is stopped and neutralized when the chloride ion concentration is 1.0 ppm or more.
Return the wastewater in the tank to the aeration tank and measure the chloride ion concentration in the wastewater discharged from the neutralization tank
When the chlorine ion concentration is 0.05 ppm or more,
Sodium thiosulfate was added to reduce the chlorine concentration in the wastewater to 0.1.
A residual chlorine removal method for a wastewater treatment facility, wherein the method is set to 0.05 to 0.1 ppm . 2. A disinfection tank for storing wastewater and injecting a chlorinated disinfectant, a chlorinated disinfectant tank connected to the disinfection tank and supplying a chlorinated disinfectant by a chlorine injection pump, An aeration tank for volatilizing chlorine in the wastewater, an aeration blower communicating with the aeration pipe of the aeration tank, a first return line connecting the aeration tank and the disinfection tank, and a first return pump disposed in the aeration tank. A neutralization tank for adding sodium thiosulfate to the wastewater for neutralization, a second return line connecting the neutralization tank and the aeration tank, a second return pump disposed in the neutralization tank, and a neutralization tank And a neutralizer tank that supplies sodium thiosulfate by a neutralizer injection pump, a first conduit with a first chlorine ion meter connecting the disinfection tank and the aeration tank, an aeration tank and a neutralization tank. And a third chlorine ion meter installed downstream of the neutralization tank. Discharge pipe line and communication with chlorine injection pump, aeration blower, first return pump, second return pump, neutralizer injection pump, first chloride ion meter, second chloride ion meter and third chloride ion meter If the chlorine ion concentration in the first chlorine ion meter is 0.5 ppm or less, a command to turn on the chlorine injection pump is issued. If the chlorine ion concentration in the first chlorine ion meter is 1.0 ppm or more, the command to turn off the chlorine injection pump is issued. When the chlorine ion concentration in the first chlorine ion meter is less than 0.5 ppm, a command to turn on the first return pump is issued. When the chlorine ion concentration in the first chloride ion meter is 0.5 ppm or more, the first return pump is turned on. Is turned off, and the chlorine ion concentration in the second chlorine ion meter is set to 0.
If it is 1 ppm or less, a command to turn off the aeration blower is issued. If the chlorine ion concentration in the second chloride ion meter is 1.0 ppm or more, a command to turn on the second return pump is issued. A residual chlorine removal device for a wastewater treatment facility, comprising: a control device for issuing a command to turn on a neutralizer injection pump at 0.05 ppm or more.