JPH0729103B2 - Carbon dioxide neutralizer - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a carbon dioxide gas neutralizer for neutralizing alkaline components contained in blow water of boilers and various industrial waste waters by the action of carbon dioxide gas.

[0002]

2. Description of the Related Art As is well known, when an alkaline wastewater is discharged, a neutralizer is mixed with the wastewater to adjust the pH value to a regulated value (for example, 5.8 to 8.6). ing. Among these methods, various carbon dioxide gas neutralization treatment devices have been proposed which perform a neutralization treatment using carbon dioxide gas which is easy to handle as a neutralizing agent.

Conventionally, as a neutralizer using carbon dioxide gas, as shown in FIG. 2, for example, a water tank 31 and a neutralization reaction tank 32 are connected by a flow passage 33, and a pump is provided in the flow passage 33. 34, a vessel 35, and a line mixer 36 are provided. Then, the first blowing pipe 37 for blowing carbon dioxide gas into the alkaline wastewater in the vessel 35 is inserted, and the second blowing pipe 38 is inserted at the bottom of the neutralization reaction tank 32.

On the other hand, the pH provided in the neutralization reaction tank 32
Based on the pH value set in advance, the controller 40 uses the signal from the sensor 39 to control the amount of carbon dioxide gas blown by the first blowing pipe 37 with the first control valve 41 and the second blowing pipe 38. The amount of carbon dioxide gas blown by is automatically adjusted by the second control valve 42 in three steps. Further, when the pH value becomes higher than the high set value, the pump 34 is also stopped.

[0005]

As described above, according to the conventional neutralizing apparatus shown in FIG. 2, the blowing amount of carbon dioxide gas is increased through the first and second blowing pipes 37 and 38. The neutralization process can be performed with the minimum necessary amount of carbon dioxide gas by adjusting to three stages of reduction or stop, but this is performed via the controller 40 by the signal of the pH sensor 39, so the control is performed. Since the circuit becomes complicated, there is a problem in maintenance, and the neutralization device is expensive, an inexpensive and simplified neutralization device is desired. Furthermore, since the neutralized water is discharged without checking the pH value, safety,
There was a problem in terms of certainty.

[0006]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and the inside of the water storage tank is provided in a flow path communicating between the water storage tank of alkaline waste water and the outlet of the neutralized water. A pump for pumping up and feeding alkaline wastewater, a mixing tank equipped with a nozzle for blowing carbon dioxide into the alkaline wastewater, and an opening / closing valve for opening and closing the outlet are provided to mix carbon dioxide into alkaline wastewater having a high pH value. In the carbon dioxide neutralization device adapted to neutralize, a regulating valve for raising the pressure in the mixing tank is provided at a position near the outlet side of the mixing tank in the flow path, and the regulating valve and the opening / closing valve are provided. PH of the neutralized water in the flow path between
A measurement tank for confirming the value is provided, and a reflux passage branched from the flow passage is provided between the measurement tank and the opening / closing valve,
A valve for opening and closing the reflux path is provided in the reflux path, the other end of the reflux path is connected to the water tank, and neutralization processing is performed based on the detection signal of the pH sensor inserted in the measurement tank. It is characterized in that a controller for controlling the return of water to the water storage tank is provided.

[0007]

According to the present invention, the pressure inside the mixing tank is raised to a predetermined value by operating the adjusting valve, and a large amount of carbon dioxide gas is dissolved in the alkaline wastewater by the jetting of carbon dioxide gas from the nozzle.
Carbon dioxide is effectively mixed into the alkaline wastewater to lower the pH value. In the measurement tank, the pH sensor measures the pH value of the neutralized water, and when the pH value is higher than the regulation value, the neutralized water is returned to the water storage tank.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Specific embodiments of the present invention will be described in detail below with reference to the drawings. FIG. 1 shows an embodiment of the present invention. The basic configuration of the neutralizing device according to the present invention is shown in FIG.
As shown in, the flow path 3 connects the water tank 1 for alkaline waste water and the outlet 2 for the neutralized water. The flow path 3 is provided with a pump 4 for pumping up and feeding the alkaline wastewater in the water storage tank 1 and a nozzle 6 for blowing carbon dioxide gas into the alkaline wastewater in order from the upstream side (the water storage tank 1 side). The mixing tank 5 and the opening / closing valve 8 for opening / closing the outlet 2 of the neutralized water are provided.

The water tank 1 is provided with a water level detector (not shown). The water level detector detects the water level in the water tank 1 to turn the pump 4 on and off. It is configured to issue a high water level warning as well. A pipe 10 for supplying blow water such as a boiler is connected to the water storage tank 1.

The mixing tank 5 is a container for lowering the pH value by mixing the fed alkaline waste water and carbon dioxide gas, and the mixing tank 5 has a nozzle as a carbon dioxide gas outlet. 6 and a line mixer 9.

The nozzle 6 is made of, for example, sintered metal, sintered glass, or the like, and is minute (4
A large number of ejection holes 6a having a diameter of 0 to 100 microns are formed. This is to make the jet diameter of the carbon dioxide gas to be a minute diameter in order to quickly dissolve the carbon dioxide gas in the alkaline wastewater and increase the chances of contact between the alkaline wastewater and the carbon dioxide gas. And at one end of this nozzle 6,
A pipe 11 serving as a carbon dioxide gas inlet is connected, and the pipe 11 communicates with a carbon dioxide cylinder 12 having an opening / closing valve 13 on the upper part thereof. Also, carbon dioxide cylinder 12
Pressure adjustment valve 14 for adjusting the supply pressure of carbon dioxide gas from the
Is provided in the middle of the pipe 11.

The line mixer 9 has a fin member (reference numeral omitted) fixed to a central rod member at an appropriate interval. The fin member is provided with an appropriate inclination angle to sufficiently mix carbon dioxide gas. I am trying.

Now, in the flow path 3, the mixing tank 5
An adjusting valve 7 for adjusting the pressure for raising the pressure in the mixing tank 5 to a predetermined pressure is provided at a position close to the outlet side of the. This adjusting valve 7 is for reducing the bubble diameter of the carbon dioxide gas in the mixing tank 5 and at the same time increasing the solubility to effectively mix the alkaline wastewater and the carbon dioxide gas. The amount of treated water is regulated. That is, in this invention, in order to simplify the control, the pH of the alkaline wastewater that is usually treated as blow water in the boiler is
Since the value is 11 to 13, this is a regulation value (for example,
5.8 to 8.6), the amount of carbon dioxide gas injected (adjustment by the pressure adjustment valve 14) and the treated water amount of alkaline waste water (adjustment by the adjustment valve 7 or the output adjustment of the pump 4) are adjusted. It is set to a predetermined quantity in advance. The amount of carbon dioxide gas injected is set to be 1.5 to 2 times larger than the theoretical value with respect to the amount of treated water in order to reduce the pH value on the safe side. When the pressure in the mixing tank 5 is increased by adjusting the adjusting valve 7, the solubility of carbon dioxide gas is 0.88 cc / cm ³ at 1 atm of 20 ° C. .7
It will be 6cc / cm ³ . Furthermore, the volume as a gas is about 50.
%, The diameter of bubbles ejected from the nozzle 6 also becomes small, which is convenient for melting.

Further, in the flow path 3, the pH of the neutralized water is between the adjusting valve 7 and the opening / closing valve 8.
A measuring tank 15 for confirming the value is provided.
A pH sensor 16 is inserted in the measuring tank 15, and the pH sensor 16 is connected to a controller 17.

In the flow path 3, a return path 18 branched from the flow path 3 is provided between the measurement tank 15 and the opening / closing valve 8.
The other end of 8 is connected to the inside of the water storage tank 1, and a valve 19 is provided in the middle of the return path 18.

Further, the controller 17 controls the operation of each of the opening / closing valve 8, the pressure adjusting valve 14 and the valve 19 based on the detection signal from the pH sensor 16, and the communication lines 20 and 21. , 22 respectively. That is, the opening / closing valve 8, the pressure adjusting valve 14, and the valve 19 are
Based on the detection signal of the pH sensor 16, the controller 17
Are configured to operate respectively.

Next, the operation of the above configuration will be described. First, before the operation, the opening / closing valve 8 provided at the outlet 2 of the flow path 3 is opened and the flow path 3
The valve 19 provided in the return path 18 branched from is closed. Then, the injection amount of carbon dioxide gas is set in advance by adjusting the pressure adjusting valve 14 provided in the pipe 11 communicating with the nozzle 6 in the mixing tank 5. Further, the adjusting valve 7 provided in the flow path 3 is adjusted to preset the pressure in the mixing tank 5 to a predetermined pressure.

The alkaline wastewater in the water storage tank 1 is pumped up by the pump 4, introduced into the mixing tank 5 through the flow path 3, and mixed with carbon dioxide gas through the nozzle 6 and the line mixer 9 in the mixing tank 5. Reduce to a given pH value. Here, since the nozzle 6 communicates with the carbon dioxide gas cylinder 12 via the pipe 11, the carbon dioxide gas adjusted to a predetermined pressure by the pressure adjusting valve 14 provided in the middle of the pipe 11 is supplied to the nozzle 6. It Since the supplied carbon dioxide gas has a small ejection hole 6a (40 microns to 100 microns) formed all around the outer surface of the nozzle 6, it has a small bubble diameter at the time of blowing and is easily dissolved in alkaline wastewater. You can Further, the line mixer 9 stirs the mixed carbon dioxide gas and the alkaline waste water with a fin member (reference numeral omitted) to more sufficiently mix them.

The neutralized water that has passed through the mixing tank 5 then enters the measuring tank 15 where the pH of the water is adjusted.
The value is measured by the pH sensor 16. Measured pH
When the value is higher than the regulation value, the detection signal is sent to the controller 17
The control valve 17 is used to close the opening / closing valve 8 and the valve 19 in the return path 18 is opened to return the neutralized water having a high pH value to the water storage tank 1. on the other hand,
The cause of the high pH value is insufficient injection amount of carbon dioxide gas, that is, pressure drop. Therefore, the pressure of the carbon dioxide gas is increased by adjusting the pressure adjusting valve 14. That is, the amount of carbon dioxide gas injected is adjusted to increase. Further, when the measured pH value is lower than the regulation value, the pressure adjusting valve 14 is narrowed to adjust the injection amount of carbon dioxide gas.

[0019]

As described above, according to the present invention, the blow water of a boiler or the like, that is, the alkaline waste water is neutralized by carbon dioxide gas in a mixing tank in which the internal pressure is set to a predetermined pressure. And alkaline wastewater are sufficiently mixed to lower the pH value to a regulated value and drained as neutralized water, so that the configuration and control can be greatly simplified as compared with the conventional device. Further, since the measurement tank is provided and the pH value of the neutralized water is confirmed by the pH sensor for treatment, the neutralization treatment can be performed more safely and surely.

[Brief description of drawings]

FIG. 1 is a schematic explanatory view showing an embodiment of the present invention.

FIG. 2 is a schematic explanatory view of a conventional carbon dioxide gas neutralization device.

[Explanation of symbols]

 1 Water Storage Tank 2 Outlet 3 Flow Path 4 Pump 5 Mixing Tank 6 Nozzle 7 Adjusting Valve 8 Opening / Closing Valve 11 Piping 12 Carbon Dioxide Cylinder 14 Pressure Adjusting Valve 15 Measuring Tank 16 pH Sensor 17 Controller 18 Reflux Path 19 Valve

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Office reference number FI technical display location C02F 1/66 ZAB

Claims (1)

[Claims] 1. A storage tank 1 for alkaline waste water and neutralized treated water
The flow path 3 communicating with the outlet 2 of the
Pump 4 for pumping and feeding potash wastewater, and alkali
Mixing tank 5 equipped with a nozzle 6 for blowing carbon dioxide into the acidic wastewater
And an opening / closing valve 8 for opening / closing the outlet 2,
Neutralize by mixing carbon dioxide into high-value alkaline wastewater
In the carbon dioxide gas neutralization device configured as described above,
The mixing tank is provided at a position close to the outlet side of the mixing tank 5.
An adjusting valve 7 for increasing the pressure inside the
The flow path 3 between the valve 7 and the opening / closing valve 8.
The measurement tank 15 for confirming the pH value of the neutralized water is provided.
The flow path is provided between the measurement tank 15 and the opening / closing valve 8.
3 is provided with a return path 18 and a branch path 18 is provided.
A valve 19 for opening and closing the reflux path 18 is provided and
The other end of the return path 18 is connected to the water tank 1.
In addition, the pH sensor 16 inserted in the measurement tank 15
The neutralized water is returned to the water tank 1 based on the detection signal.
A carbon dioxide gas neutralization device, which is provided with a controller 17 for performing a control to make the carbon dioxide gas neutralize.