JP2005013788A - AIR CLEANER AND METHOD FOR CONTROLLING pH VALUE OF TREATING LIQUID - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air cleaner in which a gas-liquid contacting means for continuing the treatment of contaminated air efficiently is used. <P>SOLUTION: This air claener is provided with the gas-liquid contacting means for contacting air with a treating liquid to decrease a contaminant in the air by the treating liquid and a pH controlling means for changing the pH of the treating liquid of the gas-liquid contacting means and keeping the pH in the prescribed range. The removal of a specified gas can be continued efficiently by a method for controlling the pH value of the treating liquid, namely, presetting the pH value of the treating liquid to the desired value fittest for the specified gas on the acid or alkaline side, treating the specified gas with the treating liquid of the fittest pH value and keeping the fittest pH value. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to an air purifier that uses a liquid and a processing liquid pH value control method in order to remove gas or dust contained in the air.
[0002]
[Prior art]
Among air purifiers for removing a plurality of types of gases, smoke, dust, dust and the like in the air, there is a type having a processing liquid inside. In this type, air is taken in and processed using gas-liquid contact with the processing liquid inside. In this treatment method, the contaminants in the air are dissolved and removed by the contact between the air containing the contaminants and the water as the treatment liquid.
[0003]
[Problems to be solved by the invention]
However, if air is taken into the air cleaner and the process of removing soluble gas or particles by the contact between the air and the processing liquid is continued, there is a disadvantage that the processing liquid is contaminated and the removal efficiency deteriorates. Japanese Patent Application Laid-Open No. 10-309432 discloses a soluble gas removal device that prevents deterioration of gas solubility by setting the pH value of an absorbing solution within a predetermined range. However, when the deviation from pH 7 is corrected using neutral (pH 7) water as the treatment liquid, various gases can be removed widely and shallowly, but specific gases cannot be removed efficiently.
[0004]
Therefore, the present invention provides an air purifier that can efficiently remove a specific gas to be removed and that can remove pollutants without deteriorating the removal efficiency even if it continues to operate.
[0005]
[Means for Solving the Problems and Effects of the Invention]
In order to solve the above-mentioned problems, an air cleaner according to the present invention comprises a gas-liquid contact means for reducing pollutants in the air by treating the air and the treatment liquid with the treatment liquid, and a gas-liquid contact. And pH control means for changing the pH of the treatment liquid of the means and maintaining the pH within a predetermined range. By using a treatment solution having a desired pH value on the acid or alkali side most suitable for the specific gas and maintaining the pH value, the specific gas is continuously removed efficiently.
[0006]
By the pH control means, the pH of the treatment liquid can be changed to a pH suitable for treating contaminants in the air. In addition, when the pH of the treatment liquid deviates from the initial value by operating the air purifier, the pH can be returned to a pH suitable for treating the contaminant by the pH control means. That is, the pH of the treatment liquid can be maintained within a certain range so that efficient treatment can be performed by the pH control means. In this way, the treatment liquid set to a pH suitable for treatment and the contaminated air are brought into contact with each other by the gas-liquid contact means, and the contaminants can be treated and reduced.
[0007]
The air purifier of the present invention is a gas-liquid contact means for reducing pollutants in the air by treating the air with the treatment liquid and bringing the air into the gas-liquid contact means. PH control means including at least one of air supply means and air intake means, pH control means for changing the pH of the treatment liquid of the gas-liquid contact means, and pH measurement means for measuring the pH of the treatment liquid of the gas-liquid contact means Is characterized in that the pH of the treatment liquid in the gas-liquid contact means is maintained in a predetermined range by a signal from the pH measurement means.
[0008]
Air can be taken into the air purifier by the air supply means or the air intake means. The inhaled air is sent to the gas-liquid contact means, where gas, smoke, particles, etc. in the air are removed by touching an acidic or alkaline treatment liquid suitable for removing a specific gas. . Contamination of water due to the operation of the air cleaner of the present invention is measured by the pH measuring means, and the pH control means operates to return the contaminated treated water to the appropriate value when it exceeds a certain set value from the appropriate value. . The pH of the treatment liquid in the gas-liquid contact means can be maintained at a desired value by the pH control means.
[0009]
If it is necessary to make the treatment solution acidic as a result of the measurement by the pH measuring means, the acidic solution is introduced into the water tank. Or if it is necessary to make it alkaline, an alkaline solution is introduced into the water tank. By measuring the pH of the treatment liquid, the degree of contamination of the treatment liquid can be determined, and the treatment liquid can be returned to an optimum state by the pH control means.
[0010]
The pH control means includes a plurality of supply means having solutions having different pHs. By providing the plurality of supply means, solutions having different pHs can be introduced into the gas-liquid contact means.
[0011]
Further, as a pH control means, a control device for supplying the solution to the gas-liquid contact means and draining the processing liquid of the gas-liquid contact means can be provided. By changing the supply ratio of the solution having different pH to the gas-liquid contact means by the control device, the pH of the treatment liquid of the gas-liquid contact means can be changed to a desired one. By such a control device, it becomes possible to drain the treatment liquid that has become unnecessary.
[0012]
The pH control means includes an electrolytic tank that generates acidic water and alkaline water by electrolyzing water, and a supply means that supplies acidic water and / or alkaline water generated in the electrolytic tank to the gas-liquid contact means. Is included.
[0013]
The pH of the treatment liquid in the water tank can be changed by feeding either acidic water or alkaline water generated by electrolysis of water or both into the water tank in the air purifier. As a result, the pH of the treatment liquid is set to a desired pH suitable for the treatment, and a deviation from the desired pH value caused by operating the air cleaner can be corrected.
[0014]
The pH control means includes an acidic water storage section for storing acidic water, an alkaline water storage section for storing alkaline water, and acidic water in the acidic water storage section and / or alkaline water in the alkaline water storage section to the gas-liquid contact means. Supply means for supplying is included.
[0015]
By providing the acidic water storage part and the alkaline water storage part, it is possible to introduce acidic water from the acidic water storage part or alkaline water from the alkaline water storage part into the water tank. Or the pH of a process liquid can be made into desired pH by adjusting the supply ratio of acidic water and alkaline water.
[0016]
The pH control means may further include a neutral water storage unit that stores neutral water. By installing a neutral water storage unit in addition to the acidic water storage unit and the alkaline water storage unit, the treatment liquid can be easily changed to a desired pH.
[0017]
The gas-liquid contact means diffuses the air introduced into the air cleaner by the air supply means into the processing liquid, contacts the processing liquid and air, and processes contaminants in the air. The air introduced into the air cleaner by the air supply means is diffused into the processing liquid, and by contacting with the processing liquid, contaminants such as gas and dust can be processed from the air.
[0018]
The gas-liquid contact means brings the treatment liquid flowing into contact with the air introduced into the air cleaner by the air supply means or the air intake means by passing the treatment liquid through which the air flows, and the contaminants in the air are brought into contact with each other. It is something to process. When the sucked air passes through the flowing processing liquid, the processing liquid and the air can be brought into contact with each other. Thereby, contaminants in the intake air can be treated with the treatment liquid.
[0019]
The gas-liquid contact means brings the treatment liquid flowing in the impregnation member into contact with the air introduced into the air cleaner by the air supply means or the intake means when the air passes through the impregnation member, thereby causing contamination in the air. The substance is processed. When the treatment liquid is caused to flow in the impregnation member and the intake air passes through the impregnation member, the treatment liquid and the intake air come into contact with each other, and contaminants can be removed here.
[0020]
The present invention changes the pH of a treatment liquid to a specific value in an air cleaner by gas-liquid contact that reduces the amount of contaminants in the air treated with the treatment liquid by bringing the treatment liquid into contact with the air. Then, the pH value control method is characterized in that the pH value is maintained for a predetermined time. Change to a pH value suitable for treating contaminated air, and correct it to maintain a desired pH value if it deviates from that pH value by a certain range. The target gas can be efficiently removed by maintaining the pH suitable for the treatment.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to examples shown in the drawings. In FIG. 1, the conceptual diagram of the diffused air cleaner 1 is shown. There is a water tank 6 inside the air cleaner 1, and a processing liquid 7 is put into the water tank 6 in order to remove contaminants contained in the air. A fan 3 is installed as an air supply means, and the fan 3 is connected to an air plate 5 as an air diffuser (aeration part) by an air supply pipe 4. The air diffuser is for releasing air and generating bubbles. The air plate 5 has a large number of holes, and the air 2 sent from the fan 3 is released into the treatment liquid 7 from the holes of the air plate 5. In the water tank 6, a pH measurement unit 25 that is a pH measurement unit for measuring the pH of the treatment liquid 7 is provided.
[0022]
The air cleaner 1 is provided with an electrolysis tank 15 for changing the pH of the treatment liquid 7 outside the water tank 6, and a control device 11 is provided between the electrolysis tank 15 and the water tank 6. The electrolytic cell 15 and the control device 11 are connected by an acidic water introduction pipe 16 and an alkaline water introduction pipe 17, and acidic water and alkaline water are conveyed to the control device 11 through these introduction pipes. The control device 11 and the water tank 6 are connected by a treatment liquid introduction pipe 12 and a treatment liquid discharge pipe 13, and acidic water and alkaline water are transferred from the control apparatus 11 to the water tank 6 through the treatment liquid introduction pipe 12. Then, the processing liquid 7 is conveyed from the water tank 6 to the control device 11 through the processing liquid discharge pipe 13. The treatment liquid 7 is drained from the drain port 14 of the control device 11.
[0023]
The electrolytic cell 15 stores water therein and electrolyzes this water. Two electrodes 18 and 19 are installed in the electrolytic cell 15, and when the electrodes 18 and 19 are energized, water is electrolyzed. By performing electrolysis of water, acidic water and alkaline water are generated. An acidic water introduction pipe 16 and an alkaline water introduction pipe 17 are connected to the acidic water generation side 20 and the alkaline water generation side 21 of the electrolytic cell 15, respectively, and these introduction pipes are connected to the control device 11. The control device 11 can introduce the solution into the water tank 6 from one or both of the acidic water introduction pipe 16 and the alkaline water introduction pipe 17. By feeding either the acidic water or alkaline water into the water tank 6 by the control device 11, the pH of the treatment liquid 7 can be changed. In addition, the control device 11 is provided with a drain port 14 for draining the processing liquid 7, and the unnecessary contaminated processing liquid 7 is discharged from the drain port 14 to the outside of the air purifier 1 by the control device 11. Drained.
[0024]
A fan 3 is attached to the air cleaner 1 as an air supply unit, and the air 2 contaminated by the fan 3 is taken into the air cleaner 1. The air 2 sucked in by the fan 3 passes through the air supply pipe 4 and is discharged from the air plate 5 as an air diffuser in the processing liquid 7 of the water tank 6 into the processing liquid 7 in the water tank 6. While the air 2 discharged from the air plate 5 becomes bubbles and passes through the treatment liquid 7, contaminants are removed and the air 2 rises to the upper part of the water tank 6. Thereafter, the purified air 8 is discharged from the air discharge port 9.
[0025]
The pH measurement unit 25 measures the pH of the treatment liquid 7. Thereby, it turns out that the process liquid 7 is contaminated by operating the air cleaner 1, and pH changes. Since the contaminants in the air are treated, there is a pH at which the treatment liquid and the contaminants are likely to react. If this pH value is maintained, efficient treatment of the contaminants can be continued.
[0026]
By sending the measured value of the pH of the treatment liquid 7 by the pH measuring unit 25 to the control device 11, the control device 11 causes the alkaline water in the electrolytic cell 15 to move to the alkaline side when the pH shifts to the acidic side from the set value. When it deviates, the acidic water of the electrolytic cell 15 is introduced into the water tank 6. At this time, if necessary, the processing liquid 7 is discharged by the control device 11 through the processing liquid discharge pipe 13 and the drain port 14. With this function, the pH of the treatment liquid 7 in the water tank 6 can be maintained within a certain range, and the contaminant removal efficiency by the treatment liquid 7 can be maintained in an optimum state.
[0027]
In the above aeration type (aeration type) air purifier, the aeration unit is not limited to the air plate as long as it is a form capable of discharging air. For example, a spherical or cylindrical shape can be used as long as air can be discharged. Moreover, it is not restricted to the form with many holes. Moreover, it is good also as a form which exhausts air in a process liquid directly from the front-end | tip of an air supply pipe | tube, without providing a diffuser part.
[0028]
FIG. 2 shows how the pH is adjusted with respect to changes in pH over time. In the figure, the horizontal axis represents time, and the vertical axis represents pH. This figure is an example in which the pH of the treatment liquid in the water tank is first set to 9. By operating the air cleaner, the treatment liquid is contaminated and the pH changes, and when the set value is exceeded, the control device functions to return the pH of the treatment liquid to a value suitable for treatment. .
[0029]
For example, when acetic acid gas is treated, it is efficiently dissolved when the pH of the treatment liquid is set to around 9.0. When the air purifier is operated and the time elapses, the pH gradually changes, and the acetic acid gas removal efficiency deteriorates. Therefore, a pH measurement unit is installed in the water tank, thereby measuring the pH of the treatment liquid. When the signal from the pH measurement unit exceeds a certain set value, the control device determines that the processing efficiency has deteriorated, and after draining the processing liquid in the water tank as necessary, introducing alkaline water into the water tank, Is returned to around pH 9.0 suitable for treatment of acetic acid gas. Contaminants can be efficiently processed by the action of the pH measuring unit and the control device.
[0030]
FIG. 3 shows another embodiment of the air purifier 30 using an air diffuser. In this example, a storage unit is installed as a pH control means instead of an electrolytic cell. In the air cleaner 30 of the present embodiment, an acidic water storage unit 31, an alkaline water storage unit 32, and a neutral water storage unit 33 are connected to the water tank 6 via the control device 11. The neutral water storage unit 33 can be omitted. The acidic water storage unit 31 stores acidic water, the alkaline water storage unit 32 stores alkaline water, and the neutral water storage unit 33 stores neutral water in advance. The acidic water storage unit 31 is connected to the control device 11 by the acidic water introduction tube 34, the alkaline water storage unit 32 is connected by the alkaline water introduction tube 35, and the neutral water storage unit 33 is connected by the neutral water introduction tube 36. Yes. The control device 11 is connected to the water tank 6 by a processing liquid introduction pipe 12 and a processing liquid discharge pipe 13. Air is sent into the air purifier 30 by the fan 3 which is an air supply means, discharged from the air plate 5 as an air diffuser (aeration part) into the treatment liquid 7, and the contaminated air 2 and the treatment liquid 7 are removed from the air. Liquid contact.
[0031]
In the water tank 6, there is similarly a pH measurement unit 25, which measures the pH of the treatment liquid 7 and sends a signal to the control device 11. In response to the signal from the pH measuring unit 25, the control device 11 introduces acidic water from the acidic water storage unit 31 into the water tank 6 if the treatment liquid 7 in the water tank 6 is more alkaline than the set value. If the treatment liquid 7 in the water tank 6 is more acidic than the set value, alkaline water is introduced from the alkaline water storage unit 32 into the water tank 6. Alternatively, neutral water is introduced as needed for pH adjustment. Further, the control device 11 is provided with a drain port 14, and can discharge the treatment liquid 7 that is no longer necessary due to contamination from the water tank 6.
[0032]
FIG. 4 shows an example in which an electrolytic cell is installed in a spray / water film type air cleaner. The air purifier 40 includes a water tank 41 and a water discharge part 44, and a circulation pump 42 is installed between the water tank 41 and the water discharge part 44, and the water tank 41, the circulation pump 42, the water discharge part 44, Are connected by a circulation pipe 43. The processing liquid 45 in the water tank 41 is pumped up to the upper water discharge part 44 inside the air purifier 40 by the circulation pump 42, and discharged into the water tank 41 from the water discharge part 44. The treatment liquid 45 discharged from the water discharge unit 44 to the water tank 41 is circulated again to the water discharge unit 44 by the circulation pump 42. A fan 3 is provided on the side of the air outlet 9 as an intake means, and the air 2 is introduced from the air inlet 26 by the fan 3. The fan 3 may be provided as an air supply means to the air inlet 26. Further, both the air supply means and the intake means may be attached.
[0033]
The air 2 introduced into the air purifier 40 by the fan 3 is discharged from the water discharge unit 44 to the water tank 41 and passes through the falling processing liquid 45 to come into contact with the processing liquid 45. At this time, contaminants in the air are dissolved in the treatment liquid, and the cleaned air 8 passes through the fan 3 and is discharged out of the air cleaner 40.
[0034]
The treatment liquid 45 discharged from the water discharge portion 44 is gradually contaminated by contacting the air 2 and treating the contaminants. A pH measuring unit 25 is provided in the water tank 41, and the degree of contamination of the processing liquid 45 is measured by measuring the pH of the processing liquid 45 by the pH measuring unit 25. Similar to the above-described embodiment, when the pH shifts to an acidic value from the set value, the control device 11 introduces alkaline water from the electrolytic bath 15 into the water bath 41. When the pH deviates from the set value to alkaline, the control device 11 introduces acidic water from the electrolytic bath 15 into the water bath 41. The function of the electrolytic cell 15 is the same as that of the above-mentioned embodiment.
[0035]
As with the air purifier 40, the treatment liquid may fall from the water discharge part, form a water film and flow to the water tank, or spray from the water discharge part to form a mist and flow to the water tank. Further, instead of dropping the treatment liquid from the upper part to the lower part in the air purifier, the treatment liquid may be discharged transversely (laterally) or may be flowed from the lower part toward the upper part.
[0036]
FIG. 5 shows an embodiment in which an acidic water storage unit 31, an alkaline water storage unit 32, and a neutral water storage unit 33 are connected to a water film / spray type air cleaner. The air purifier 50 includes a water tank 41 and a water discharge unit 44. The water tank 41 and the water discharge unit 44 are connected by a circulation pipe 43, and a circulation pump 42 is installed between the circulation pipes 43. Has been. The treatment liquid 45 in the water tank 41 is pumped up to the upper water discharge part 44 inside the air purifier 50 by the circulation pump 42, and discharged into the water tank 41 from the water discharge part 44. The treatment liquid 45 discharged from the water discharge unit 44 to the water tank 41 is circulated again to the water discharge unit 44 by the circulation pump 42. Inside the air purifier 50, a fan 3 is provided on the air discharge port 9 side as an intake means, and the air 3 is introduced from the air introduction port 26 by the fan 3. The fan 3 may be an air supply unit and may be provided on the air inlet 26 side.
[0037]
The air 2 introduced by the fan 3 is discharged from the water discharge portion 44 and comes into gas-liquid contact with the flowing processing liquid 45 that is falling, thereby removing contaminants. The purified air 2 is discharged out of the air purifier 50 through the air discharge port 9.
[0038]
The control device 11 discharges the treatment liquid 45 in the water tank 41 or introduces the solution from the acidic water storage unit 31 or the alkaline water storage unit 32 into the water tank by switching a valve in the control device. Then, the pH of the processing liquid 45 is adjusted so that the processing of the pollutant is performed efficiently.
[0039]
By operating the air cleaner 50, the pH of the processing liquid 45 that has come into contact with the contaminated air 2 is changed, and the removal efficiency of the contaminant is deteriorated accordingly. In the water tank 41, a pH measuring unit 25 is installed as in the above-described embodiment, and measures the pH of the treatment liquid 45. The pH measurement unit 25 sends a measured value of pH to the control device 11, and the control device 11 introduces acidic water, alkaline water, and neutral water so as to keep the pH at a desired value by this signal.
[0040]
FIG. 6 shows an embodiment of an impregnated member / water film type. A water impregnation filter 61 as an impregnation member is installed in the air purifier 60, and the water impregnation filter 61 is connected by a circulation pump 42 and a circulation pipe 43. Examples of the impregnated member include a sponge-like material such as urethane, cloth, cotton, and silica gel. If it has air permeability, it will not specifically limit. In the water impregnated filter 61, a pH measuring unit 25 is installed in order to measure the pH of the treatment liquid flowing in the impregnated filter 61. The pH measuring unit 25 is electrically connected to the control device 11. An electrolytic cell 15 is connected as a pH control means to the circulating system side of the treatment liquid constituted by the impregnation member 61, the circulation pump 42 and the circulation pipe 43 via the control device 11.
[0041]
The treatment liquid in the treatment liquid circulation system is discharged from the drain port 14 by the control device 11, or the acidic water or alkaline water in the electrolytic cell 15 is introduced to the circulation system side. In order to introduce the contaminated air 2, a fan 3 is installed on the air discharge port 9 side as an intake means. Alternatively, the fan 3 may be installed on the air inlet 26 side as an air supply means, or both the air supply means and the intake means can be attached.
[0042]
The water-impregnated filter 61 is configured so that the treatment liquid flows down from the upper part to the lower part. The treatment liquid that has flowed down is pumped up to the top of the water-impregnated filter 61 by the circulation pump 42, and is discharged into the water-impregnated filter 61 from there. The treatment liquid travels through the water-impregnated filter 61 and falls to the lower part. The treatment liquid dropped to the lower part of the water-impregnated filter 61 is again pumped up to the upper part of the water-impregnated filter 61 by the circulation pump 42. In this way, the treatment liquid circulates.
[0043]
Air 2 is introduced into the air purifier 60 by a fan 3 that is an intake means installed at the air discharge port 9, and passes through a water-impregnated filter 61 that is installed in the air purifier 60. The air is discharged from the air outlet 9 to the outside of the air purifier 60. When the contaminated air 2 introduced into the air purifier 60 passes through the water-impregnated filter 61, it comes into contact with the treatment liquid falling in the water-impregnated filter 61, thereby causing dust, soluble gas, etc. in the contaminated air. Contaminants are removed by the treatment liquid.
[0044]
When the air 2 continues to pass through the water-impregnated filter 61, the circulated treated water is gradually contaminated. The circulation path of the treated water is connected by the control device 11, the treatment liquid introduction pipe 12, and the treatment liquid discharge pipe 13, and the control apparatus 11 includes the electrolytic tank 15, the acidic water introduction pipe 16, and the alkaline water introduction pipe 17. Connected by two tubes. Further, the control device 11 is provided with a drain port 14 for draining treatment liquid that is no longer needed.
[0045]
The pH of the circulated water is measured by the pH measuring unit 25 installed in the water-impregnated filter 61. When the pH value deviates from the set value, the control device 11 introduces a new solution from the electrolytic cell 15 into the treatment liquid circulation system by a signal from the pH measurement unit 25. The processing liquid that is no longer needed is discharged out of the drain port 14 installed in the control unit 11.
[0046]
FIG. 7 shows an embodiment in which a storage tank is installed in place of an electrolytic cell in an impregnated member / water film type air cleaner. Other structures are the same as described above. When the pH deviates from the set value due to the operation of the air purifier 70, the control device 11 is activated by the signal from the pH measuring unit 25 as described above, and the acidic water and alkaline water are supplied from the storage tanks 31, 32 and 33. Water and neutral water are introduced, and the treatment liquid is returned to a desired pH.
[0047]
Thus, the control device for adjusting the pH of the treatment liquid in the water tank and the electrolytic tank, or the air cleaner having the acidic / alkaline storage unit is suitable for the removal efficiency of the processing gas. Can be kept in.
[Brief description of the drawings]
FIG. 1 shows an embodiment of an air diffuser equipped with a pH measuring unit and an electrolytic cell.
FIG. 2 is a diagram showing pH change and pH correction by pH control means.
FIG. 3 shows an embodiment of an air diffuser having a pH measurement unit and a storage unit.
FIG. 4 shows an embodiment of a water film / spray type air cleaner equipped with a pH measuring unit and an electrolytic cell.
FIG. 5 shows an embodiment of a water film / spray type air cleaner equipped with a pH measurement unit and a storage unit.
FIG. 6 shows an embodiment of an impregnated member / water film type air purifier equipped with a pH measuring unit and an electrolytic cell.
FIG. 7 shows an embodiment of an impregnated member / water film type air purifier provided with a pH measurement unit and a storage unit.
[Explanation of symbols]
1, 30, 40, 50, 60, 70 Air purifier 11 Control device 15 Electrolyzer 25 pH measurement unit 31 Acidic water storage unit 32 Alkaline water storage unit 33 Neutral water storage unit

Claims (10)

A gas-liquid contact means for reducing contaminants in the air by treating with the treatment liquid by bringing the treatment liquid into contact with the air;
An air cleaner comprising: pH control means for changing the pH of the treatment liquid of the gas-liquid contact means and maintaining the pH within a predetermined range. A gas-liquid contact means for reducing contaminants in the air by treating with the treatment liquid by bringing the treatment liquid into contact with the air;
At least one of air supply means and air intake means for taking in the air and introducing it into the gas-liquid contact means;
PH control means for changing the pH of the treatment liquid of the gas-liquid contact means;
PH measuring means for measuring the pH of the treatment liquid of the gas-liquid contact means,
The air cleaner is characterized in that the pH control means maintains the pH of the treatment liquid in the gas-liquid contact means in a predetermined range by a signal from the pH measurement means. The air cleaner according to claim 1 or 2, wherein the pH control means includes a plurality of supply means having solutions having different pHs. The pH control means includes an electrolytic cell that generates acidic water and alkaline water by electrolyzing water;
The air cleaner according to claim 1, further comprising a supply unit that supplies the acidic water or / and the alkaline water generated in the electrolytic cell to the gas-liquid contact unit. The pH control means includes an acidic water storage unit that stores acidic water;
An alkaline water storage section for storing alkaline water;
The air cleaner according to claim 1, further comprising: a supply unit that supplies the acidic water in the acidic water storage unit and / or the alkaline water in the alkaline water storage unit to the gas-liquid contact unit. The air cleaner according to claim 5, wherein the pH control means includes a neutral water storage unit that stores neutral water. The gas-liquid contact means diffuses air introduced into the air cleaner by an air supply means into the processing liquid, contacts the processing liquid and the air, and processes contaminants in the air. The air purifier according to any one of claims 1 to 6, wherein the air cleaner is one. The gas-liquid contact means brings the processing liquid flowing into contact with the air introduced into the air cleaner by an air supply means or an intake means by passing the processing liquid in which the air flows, and The air cleaner according to any one of claims 1 to 6, wherein the air cleaner treats contaminants in the air. The gas-liquid contact means brings the treatment liquid flowing in the impregnation member into contact with the air introduced into the air cleaner by the air supply means or the intake means by passing the air through the impregnation member, The air cleaner according to any one of claims 1 to 6, wherein the air cleaner treats contaminants in the air. In an air purifier by gas-liquid contact in which the contaminants in the air are treated with the treatment liquid and reduced by bringing the treatment liquid into contact with the air, after changing the pH of the treatment liquid to a specific value A method for controlling the pH value of a processing solution, wherein the pH value is maintained for a predetermined time.

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