KR20190123728A - Air treatment method - Google Patents

Abstract

The air treatment method includes generating ozone by emitting light and generating at least one of benzoic acid, benzaldehyde, and acetophenone by the generated ozone.

Description

Air treatment method

The present invention relates to an air treatment method for treating a substance in air.

Conventionally, as an air treatment method, the air treatment method which produces ozone by radiating light and treats the substance in air with the produced ozone is known (for example, patent document 1). According to such an air treatment method, deodorization and sterilization can be performed with respect to air.

Japanese Utility Model Publication No. 7-3650

Here, the subject is to provide an air treatment method capable of adding fragrance to air.

The air treatment method includes generating ozone by emitting light and generating at least one of benzoic acid, benzaldehyde, and acetophenone by the generated ozone.

The air treatment method may be a method of generating benzoic acid so that the concentration of benzoic acid in the air is 60 ppb or more.

In addition, the air treatment method may be a method of generating benzaldehyde so that the concentration of benzaldehyde in the air is 200 ppb or more.

The air treatment method may be a method of generating acetophenone such that the concentration of acetophenone in the air is 40 ppb or more.

As described above, the air treatment method exhibits an excellent effect of adding fragrance to air.

1 is an overall schematic view of an air treatment device according to one embodiment.
2 is a control block diagram of the air treatment device according to the embodiment.
3 is a table evaluating the concentration of benzoic acid in air.
4 is a table evaluating the concentration of benzaldehyde in air.
5 is a table evaluating the concentration of acetophenone in the air.

EMBODIMENT OF THE INVENTION Hereinafter, one Embodiment in an air processing method is demonstrated, referring FIG. 1 and FIG. In addition, in each figure, the dimension ratio of a figure and an actual dimension ratio do not necessarily correspond, and also the dimension ratio between each figure does not necessarily correspond.

As shown in FIG. 1 and FIG. 2, the air processing apparatus 1 which concerns on this embodiment accommodates the light source 2 which emits light, and the light source 2 in order to generate | occur | produce ozone from the oxygen in air. The housing 3 and the fan 4 which distributes the air inside the housing 3 are provided. That is, the air processing apparatus 1 is a light emitting ozone generating device.

The energy of light emitted from the light source 2 is larger than the oxygen molecular dissociation energy (5.1 eV) and smaller than the nitrogen molecular dissociation energy (9.7 eV). For example, the light source 2 emits ultraviolet light having a peak wavelength of 170 nm to 230 nm. In the present embodiment, the light source 2 is a lamp (specifically, an excimer lamp), emits ultraviolet light having a peak wavelength of 172 nm, and the light energy of such 172 nm ultraviolet light is 7.2 eV.

Moreover, the air processing apparatus 1 is provided with the input part 5 into which information is input from a user, and the control part 6 which controls the light source 2 and the fan 4. As shown in FIG. The input unit 5 receives information on the ozone generation amount (for example, a value indicating the degree of ozone generation amount), and the control unit 6 generates a light source (based on the information input to the input unit 5). The radiation amount (specifically, the amount of power supplied to the light source 2) of the light of 2) and the blowing amount by the fan 4 (specifically, the rotational speed of the fan 4) are controlled.

The structure of the air processing apparatus 1 which concerns on this embodiment is as above-mentioned, Next, the air processing method which concerns on this embodiment is demonstrated. Moreover, the air processing method which concerns on this embodiment discharges air in the air (discharges outside of a light source) using only a light emission type air processing apparatus (ozone generating apparatus), and discharge type air processing. Do not use a device (ozone generator).

The air treatment apparatus 1 which concerns on this embodiment is installed in the smoking room 10, such as a conference room and a smoking room, for example. In addition, the room 10 in which the air processing apparatus 1 is installed is not limited to such a room, What is necessary is just the room which a person can enter. For example, the space of the room 10 may be 2 m ³ or more, or 5 m ³ or more. For example, the space of the room 10 may be 100 m ³ or less, or 50 m ³ or less.

The air in the room 10 contains moisture. In addition, the air in the room 10 contains an organic hydrocarbon, for example, an aromatic hydrocarbon having a benzene ring such as benzene, toluene, xylene, ethylbenzene. For example, the concentration in the air of the aromatic hydrocarbon having a benzene ring is 40 ppb or more.

First, ozone is produced by the light source 2 emitting light. And such ozone becomes an oxygen atom and an oxygen molecule, and an oxygen atom reacts with the moisture in air, and becomes a hydroxy (OH) radical. In addition, OH radicals are also generated when light from the light source 2 is irradiated with moisture in the air. Thus, ozone (oxygen atoms) and OH radicals are generated in the air. In addition, since the energy of the light emitted by the light source 2 is smaller than the nitrogen molecule dissociation energy, the nitrogen molecules do not dissociate, and NOx is not generated.

And ozone and OH radical react with the substance (organic substance) in air, and deodorize and disinfect air. Moreover, benzoic acid, benzaldehyde, and acetophenone are produced | generated by aromatic compound etc. in air react with OH radical. Thus, fragrance is added to the air.

At this time, the air processing apparatus 1 processes the air inside the room 10 so that the concentration of benzoic acid, benzaldehyde, and acetophenone in air may be a predetermined concentration. The amount of ozone generated by the air treatment apparatus 1 (specifically, the radiation amount of the light of the light source 2 and the fan 4) in response to the size of the room 10, the contents of the air in the room 10, and the concentration thereof. Air flow volume) is appropriately set.

Thereby, for example, the concentration of benzoic acid in air is 60 ppb or more. For example, the concentration of benzaldehyde in air is 200 ppb or more. For example, the concentration of acetophenone in air is 40 ppb or more. In addition, the concentration in air before treatment of the aromatic hydrocarbon having a benzene ring is higher than the concentration in air after treatment of benzoic acid, benzaldehyde, and acetophenone.

Benzoic acid and benzaldehyde are produced, for example, by reaction of toluene, xylene, ethylbenzene, styrene, paradichlorobenzene with OH radicals. Acetophenone is produced by, for example, phenol produced by benzene and OH radicals reacting with acetaldehyde. Moreover, acetophenone is produced | generated by irradiating an ultraviolet-ray to polystyrene, for example.

In addition, when the aromatic hydrocarbon having a benzene ring reacts with the OH radical, substances other than benzoic acid, benzaldehyde, and acetophenone are also produced. For example, water, phenol, salicyaldehyde, p-cresol and the like are also produced.

Moreover, the organic substance other than the aromatic hydrocarbon which has a benzene ring exists in air. For example, organic substances such as hydrogen sulfide, methyl mercaptan and methyl sulfide in the air react with ozone and OH radicals, and, for example, organic substances such as acetaldehyde, formaldehyde and isogilic acid in the air React with OH radicals.

As mentioned above, the air processing method which concerns on this embodiment includes generating ozone by radiating light, and producing | generating at least 1 among benzoic acid, benzaldehyde, and acetophenone by the produced ozone.

According to this method, ozone is produced by radiating light, and OH radicals are generated when oxygen atoms generated from ozone react with water in the air. And benzoic acid, benzaldehyde, and acetophenone are produced | generated by an OH radical reacting with an aromatic compound etc. in air. Therefore, in addition to deodorization and disinfection, air can be added to the air.

Example

In order to show the effect of an air treatment method concretely, the Example and the comparative example of an air treatment method are demonstrated. Specifically, it demonstrates in order of the air processing apparatus used for an air processing method, the evaluation method of an effect, and the evaluation result of an effect.

Comparative Example

Air processing unit (OHNIT Corporation make: GWD-1000FR)

Method: A discharge type ozone generating device that generates ozone by discharging air

Ozone Generation: 1000mg / Hr

· Airflow: 1.37m ³ / min

<Example>

Air handler

Method: Light emitting ozone generating device that generates ozone by radiating light into the air

Peak wavelength of light: ultraviolet light of 172 nm

Ozone Generation: 1000mg / Hr

· Airflow: 1.37m ³ / min

<Evaluation method>

The air of the room (about 30 m ³ ) where smoking was smoked was treated by generating ozone for 30 minutes with the air treatment apparatuses of Examples and Comparative Examples, and thereafter, only blowing was performed without generating ozone for 30 minutes. And the air before and after processing by the air processing apparatus was collected in the adsorption pipe (GL Sciences Co., Ltd. make: Tenax TA60 / 80 150 mg) using the automatic gas collection device (GASTEC Co., Ltd. make: GSP-400FT).

Thereafter, the air collected in the inside of the adsorption tube is separated from the adsorption tube by the following heat desorption apparatus, and the separated air is subjected to gas chromatography mass spectrometry (GC) using the following gas chromatograph and mass spectrometer. / MS analysis).

Heating desorption device: ATD650 manufactured by PerkinElmer

  Purge Time: 1min

  Primary desorption: 300 ℃, 10min

  2nd desorption: 300 ℃, 10min

  Trap Temperature: 5 ℃

  Outlet Split: 12mL / min

Gas Chromatography: 7890B manufactured by Agilent Technologies Inc.

  Column: DB-624 60m, 0.25mm, 1.4um

Mass spectrometer: Japan Electronics Co., Ltd. JMS-Q1500GC

  Measurement condition: 35 ° C (3min) -6 ° C / min-250 ° C (12min)

<Evaluation result>

In the air before being processed by the air treatment apparatus of an Example and a comparative example, the aromatic hydrocarbon which has a benzene ring was detected.

And pyridine was detected by the highest density | concentration in the air after processing by the air processing apparatus of a comparative example. This is because in the discharge type ozone generating device, since the energy of the discharger is 0.01 eV to 30 eV, nitrogen molecules are also dissociated, and pyridine is generated when the nitrogen atom reacts with benzene. And the air after processing by the air treatment apparatus of the comparative example had the bad smell resulting from pyridine. Therefore, according to the air treatment method according to the comparative example, although deodorization and sterilization could be carried out with respect to air, fragrance could not be added, and conversely, odor was added.

On the other hand, in the air after processing with the air treatment apparatus of the Example, it detected with high concentration in order of benzoic acid, benzaldehyde, and acetophenone. And the air after processing by the air processing apparatus of the Example had a floral fresh smell because of benzoic acid, benzaldehyde, and acetophenone. In addition, pyridine is not detected in the air after processing by the air processing apparatus of an Example. Therefore, according to the air processing method which concerns on an Example, not only deodorization and sterilization were carried out with respect to air, but also the preferable fragrance was added.

In addition, the air processing method is not limited to the structure of above-mentioned embodiment, and is not limited to said effect. In addition, of course, various changes can be made to the air treatment method in the range which does not deviate from the summary of this invention. For example, it is a matter of course that one or a plurality of configurations, methods, or the like according to various modifications described below may be arbitrarily selected and employed in the configurations, methods, and the like according to the above embodiments.

In the air treatment method, the concentration of at least one of benzoic acid, benzaldehyde, and acetophenone may be manually adjusted or may be automatically adjusted. For example, in manual adjustment, information is input to the input part 5 based on the measurement value of the concentration of at least one of benzoic acid, benzaldehyde, and acetophenone and evaluation of the sensory function (for example, the output changeover switch is Control unit 6 can control the light source 2 or the fan 4 to adjust the concentration of at least one of benzoic acid, benzaldehyde, and acetophenone.

For example, in automatic adjustment, the measuring device which can measure the density | concentration of at least 1 of benzoic acid, benzaldehyde, and acetophenone is installed in the room 10, and it controls based on the density | concentration measured by the measuring device, and the setting value of concentration. By controlling the light source 2 or the fan 4, the concentration of at least one of benzoic acid, benzaldehyde, and acetophenone can be adjusted. At this time, the input part 5 may be comprised so that the setting value of at least 1 concentration of benzoic acid, benzaldehyde, and acetophenone may be input, for example.

In addition, the preferable concentration of benzoic acid, benzaldehyde, and acetophenone in air is demonstrated with reference to FIGS. As an evaluation method, five panels were made to smell the sample containing benzoic acid, benzaldehyde, and acetophenone of predetermined density | concentration in air, and the number of people who sensed the fresh smell of a floral system was counted.

As shown in Fig. 3, in the benzoic acid, the concentration in air was 60 ppb, one person sensed, the concentration in air was 70 ppb, two people sensed, the concentration in air was 90 ppb, and the power of five sensed. . Thereby, in the air treatment method, it is preferable to generate benzoic acid so that the concentration of benzoic acid in the air becomes 60 ppb or more, and it is more preferable to produce benzoic acid so that the concentration of benzoic acid in the air becomes 70 ppb or more, It is also very desirable to produce benzoic acid so that the concentration of benzoic acid in the air is at least 90 ppb.

In addition, as shown in Fig. 4, in benzaldehyde, the air concentration is 200 ppb, one person senses, the air concentration is 250 ppb, two people sense, the air concentration is 400 ppb, and the power supply is 5 Detected. Thereby, in the air treatment method, it is preferable to produce benzaldehyde so that the concentration of benzaldehyde in air may be 200 ppb or more, and it is more preferable to produce benzaldehyde so that the concentration of benzaldehyde in air may be 250 ppb or more, It is also very desirable to produce benzaldehyde such that the concentration of benzaldehyde in the air is 400 ppb or more.

In addition, as shown in Fig. 5, in acetophenone, the concentration in air is 40 ppb, one person senses, the concentration in air is 45 ppb, two people sense, the concentration in air is 55 ppb, and the power supply is five Detected this. Therefore, in the air treatment method, it is preferable to produce acetophenone so that the concentration of acetophenone in the air becomes 40 ppb or more, and to produce acetophenone so that the concentration of acetophenone in the air becomes 45 ppb or more. It is more preferable to produce acetophenone so that the concentration of acetophenone in the air is 55 ppb or more.

1: air treatment unit 2: light source
3: housing 4: fan
5: input part 6: control part
10: room

Claims (4)

Generating ozone by emitting light,
An air treatment method comprising producing at least one of benzoic acid, benzaldehyde, and acetophenone by the generated ozone. The method according to claim 1,
An air treatment method for producing benzoic acid such that the concentration of benzoic acid in air is 60 ppb or more. The method according to claim 1,
An air treatment method for producing benzaldehyde such that the concentration of benzaldehyde in the air is 200 ppb or more. The method according to claim 1,
An acetophenone is produced | generated so that the concentration of acetophenone in air may be 40 ppb or more.

Images