KR101430120B1 - Gas purification apparatus - Google Patents

Abstract

The present invention is intended to provide a purifying mechanism for a gas which can achieve a sufficient purge as compared with the prior art.
According to the present invention, the electrolytic water E having the storage tank 1 and the gas booster means 2 is supplied with the gas to be purified by the booster means 2 into the electrolytic water E as fine bubbles 3 So that the oxidizing action by the electrolytic water (E) is carried out by the fine bubbles (3) while press fitting. It is possible to increase the density of encounters between fine bubbles (containing fungi and VOC gas components) and electrolytic water (attack medium).

Description

[0001] The present invention relates to a gas purification apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a purifying mechanism of a gas which can purify a gas better than ever.

Conventionally, there are proposals concerning an ion generating device for generating ions for sterilizing airborne bacteria and an air conditioning device for changing the physical properties of air to produce a desired atmosphere, and the following contents are disclosed (Patent Document 1).

In recent years, due to the high airtightness of the residential environment, there has been a strong demand for a healthy and pleasant life by removing airborne bacteria from the air harmful to the human body. In order to meet such a demand, Known air conditioners such as an air cleaner, an air conditioner, and a refrigerator have been developed. In the conventional air conditioner, the air in the space is sucked together with the contaminants, and the contaminants are adsorbed or decomposed by the filter It is inevitable to perform maintenance such as replacement of a filter depending on use for a long period of time. Moreover, the characteristics of the filter are not sufficient and a satisfactory performance can not be obtained. On the other hand, an air conditioner for increasing the concentration of ions in the air by using an ion generating device has been developed. However, currently available air conditioners generate only negative ions, Although the effect can be expected to some extent, it has not been shown to be effective in the active removal of airborne germs in the air. The proposal is based on this consideration, A sterilizing method, an ion generating device, and an air conditioning device. In order to achieve this object, the sterilization method is to sterilize airborne bacteria suspended in the air by discharging positive and negative ions. According to this configuration, by applying AC high voltage between the electrodes, ionization (電離) phenomenon arose generating the positive ions and a sub-ion, at which time generation positive ions as O ₂ as H ⁺ (H ₂ O) n, part ions due to the discharge ^- (H ₂ O) there is n is generated, These positive ions and negative ions alone do not have a particular effect on airborne germs. However, when these ions are generated at the same time, active species (active species) are generated by a chemical reaction, It is able to surround and remove the floating bacteria. Hayeoseo emit positive ions and a sub-ion by sterilizing the airborne bacteria floating in the air can be simply and satisfactorily remove most of the airborne bacteria present in the air, and positive ions H ⁺ (H ₂ O) n or parts Ion O ₂ ^- (H ₂ O) n, it is possible to stably supply each of the ions, and the active species can easily be generated by reacting the positive ions and the negative ions.

However, in the method of removing airborne germs by positive ions and negative ions, there is a problem that sufficient treatment can not be performed in relation to each other.

Japanese Patent Application Laid-Open No. 2002-95731

Here, the present invention is intended to provide a purifying mechanism for a gas which can perform a purification more sufficiently than in the prior art.

In order to solve the above problems, the present invention takes the following technical means.

(1) The purifying mechanism of this gas has a storage tank in which electrolytic water is stored and a gas boosting means, and an acid pipe is provided at a position deeply below the electrolytic water. The gas to be purified is press- So that the oxidizing action by the electrolytic water is affected by the fine bubbles.

Here, the electrolytic water can be obtained by electrolyzing saline, hypochlorous acid, hypochlorous acid, hydrogen peroxide water, and the like. As they are electrolyzed, active species such as OH radicals can be produced. When electrolysis is carried out under the coexistence of chlorides, effective chlorine such as hypochlorous acid is produced. In order to generate electrolytic water, an electrolytic mechanism may be provided in the storage tank, or may be circulated between the storage tank and the electrolytic apparatus outside the storage tank.

Diaphragm pumps, compressors, and the like can be exemplified as gas boosting means. An air diffuser or the like can be used to make the gas into a fine particle. From the viewpoint of increasing the contact area with the electrolytic water, the fine bubble size is preferably as fine as, for example, nano bubbles of 1 mu m or less.

Since the gas purifying mechanism of this gas is constructed as described above and the gas to be purified is injected into the electrolytic water as fine bubbles, it is more advantageous than the case of discharging positive and negative ions in the air VOC gas component, and the like) and electrolytic water (attack medium) can be increased.

That is, with respect to the density of ions in the air in the prior art and the rate of encounters of floating fungi (encounters in the indoor space), in the present invention, the gas becomes infinitely dispersed fine bubbles and surrounds the outer periphery of the electrolytic water (OH radicals and residual chlorine concentration) of the electrolytic water can be attacked in all directions against the object to be cleaned (fungus or VOC gas component) in the fine bubbles in the electrolytic water, (Concentration of high concentration) of the gas (for example, the intensity of the resistance of the airborne bacteria or the degree of contamination, the VOC gas, the smoke concentration of the cigarette, etc.) without receiving the restriction .

Further, since the gas to be purified is press-fitted into the electrolytic water as fine bubbles by the step-up means, the fine bubbles injected into the electrolytic water are compressed in the compressed state against the liquid pressure (basically, although the degree varies depending on the degree of compression) Behave. Since the oxidizing action by the electrolytic water has an effect on the fine bubbles, the surface area of the fine bubbles which are to act to expand in the compressed state against the fluid pressure is increased in the electrolytic water (difference in degree) The mutual contact between the micro-bubbles and the electrolytic water can be dynamically increased in the liquid surface, and liquefaction (deodorization, discoloration, sterilization) of the gas can be performed more highly.

However, the concentration of hypochlorous acid to be electrolyzed and the conditions of electrolysis (current value and voltage value, distance between the electrodes and the like) of the electrolytic water remaining concentration in the storage tank (one indicator of the attack power against microbubbles) The gas to be treated can be treated under the optimum condition (at the minimum possible to be purified) and the processing cost can be reduced as much as possible.

For example, when fungi such as viruses and bacteria in the air are sterilized or sterilized, a sufficient sterilization effect is obtained even when the residual chlorine concentration in the electrolytic water storage tank is 5 ppm or less. On the other hand, when treating air in a highly polluted region such as a hospital, it can be set to a higher residual chlorine concentration of about 10 to 20 ppm, and depending on the object to be treated, the residual chlorine concentration is set higher Ppm). That is, the residual chlorine concentration of the electrolytic water in the storage tank can be set to a desired concentration economically suitable.

When minute bubbles are supplied to the deep position of the electrolytic water storage tank, the time required for floating the electrolytic water can be prolonged. When the demister (disturbance plate, contact plate) is provided in the electrolytic water storage tank, the contact time between the minute bubbles and the gas can be prolonged by extending the required floating time by contacting the demister during the rising of the minute bubbles, The bubbles can be broken and finely dispersed. The demister may be rotated or rotated.

(2) When deodorizing VOC gas in a paint factory, a liquid crystal manufacturing factory, or a chemical factory, it can be highly odorless (odorless) than a conventional scrubber system (a droplet spraying system in a gas). This is because the gas becomes fine bubbles and is surrounded by the electrolytic water, so that there are many scrubbing methods (there are many untreated gas passing through the gap of the water droplets because the method of spraying droplets onto the gas to be purified) This is because the contact efficiency between the micro-bubbles and the electrolytic water is very excellent.

(3) When airborne bacteria such as viruses and bacteria in indoor air of various buildings are sterilized or sterilized (and the removal of suspended particulates), when the ion of the government is released into the air as described above It is possible to purify the air more highly (sterilization purification and improvement of particle cleanliness).

(* The oxidizing action of the OH radical is exerted by the electrolytic water in the storage tank), (for example, when the ion is released in the air and There is no fear that a person will suck it in by breathing and be adversely affected.

When the electrolytic water is reduced, the action of the electrolytic water on the object to be cleaned in the fine bubbles is made in the closed space (in the liquid) called the storage tank, so that the effect on the external space There is an advantage that the concentration of the electrolytic water can be adjusted as desired due to the point.

(4) Odorless can be obtained by deodorizing or detoxifying the gas containing organic matter carbides (causing odor) and harmful substances (dioxin, etc.) contained in the exhaust gas of an incinerator or a boiler.

The present invention is configured as described above and has the following effects.

It is possible to increase the concentration of electrolytic water and the concentration of the electrolytic water between microbubbles (containing fungus and VOC gas components) and the electrolytic water, so that it is possible to provide a purifying mechanism for a gas which can perform a sufficient purification compared with the conventional one.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a system flow chart for explaining an embodiment of a purifying mechanism of a gas of the present invention. FIG.

Hereinafter, embodiments of the present invention will be described.

As shown in Fig. 1, the gas purifying mechanism of this embodiment has electrolytic water E storage tank 1 and gas boosting means 2, and the gas to be purified is supplied to the pressure increasing means 2 So that the electrolytic water E is injected into the fine bubbles 3 while being pressed into the electrolytic water E to oxidize the fine bubbles 3.

The electrolytic water (E) can be obtained by electrolyzing saline, hypochlorous acid, hypochlorous acid, hydrogen peroxide water, and the like. It can be considered that active species such as OH radicals are produced by electrolysis. When electrolysis is carried out under the coexistence of chlorides, effective chlorine such as hypochlorous acid is produced. The circulation between the storage tank 1 and the electrolytic device 4 outside the storage tank 1 is made by the pump P.

A diaphragm pump, a compressor, or the like can be exemplified as the gas booster means 2. An air diffuser (5) is used to make the gas into fine bubbles (3). The size of the fine bubbles 3 is preferably as small as nano bubbles of 1 mu m or less, for example, from the viewpoint of increasing the contact area with the electrolytic water E.

When there is an effective chlorine in the electrolytic water E, there is a possibility that a very small amount of chlorine gas is volatilized in the storage tank 1. Therefore, two activated carbon adsorption layers 6 are provided above the storage tank 1, The purified clean gas is discharged while preventing the gas from leaking to the outside.

When the fine bubbles 3 are supplied to a deep position of the storage tank 1 of the electrolytic water E, it takes a long time to float up to the water surface, and therefore the time for performing the interaction with the electrolytic water E is long . Further, when a demister (interference plate or contact plate) is provided in the storage tank 1 of the electrolytic water E, the micro bubble 3 is brought into contact with the demister during its lifting, The contact time between the minute bubbles 3 and the liquid can be prolonged, and the bubbles can be blown to make the fine bubbles 3 finer and dispersed. The demister may rotate or rotate.

Next, the use state of the purifying mechanism of the gas of this embodiment will be described.

Since the gas purifying mechanism of this gas is constructed as described above and the gas to be purified is injected into the electrolytic water E as the fine bubbles 3, It is possible to increase the density of encounters between the bubbles 3 (containing fungi and VOC gas components) and the electrolytic water E (attack medium), and there is an advantage that sufficient purification can be achieved than in the prior art.

That is, in the present invention, the gas becomes the minute bubbles 3 dispersed innumerably, with respect to the density of ions in the air of the prior art and the rate of encounters with suspended fungi (encounters in the indoor space) E) of the electrolytic water E can be attacked in all directions against the object to be cleaned (fungus or VOC gas component) in the fine bubbles 3 in the electrolytic water E while the concentration of the electrolytic water E Chlorine concentration) of the gas is not limited to the influence of the influence on the human body (not so high concentration) as in the case of the indoor space, and the characteristics of the gas (for example, the intensity of the resistance of floating fungi, The concentration of tobacco smoke, etc.) (it is also possible to set a high concentration).

Since the gas to be purified is press-fitted into the electrolytic water E as the fine bubbles 3 in the electrolytic water E by the voltage step-up means 2, the fine bubbles 3 injected into the electrolytic water E are compressed (Although there is a difference in degree depending on the degree of compression, basically it moves to inflate). Since the oxidizing action of the electrolytic water E on the fine bubbles 3 is carried out, the minute bubbles 3 which move to expand in a compressed state against the liquid pressure are discharged in the electrolytic water E The contact between the object to be cleaned (for example, fungus or VOC gas component) in the fine bubbles 3 and the electrolytic water E can be dynamically increased in terms of surface area in the liquid, (Deodorization, discoloration, sterilization) can be performed more highly.

However, the setting of the residual chlorine concentration (one indicator of the attack power against the fine bubbles 3) of the electrolytic water E in the storage tank 1 (concentration of hypochlorous acid to be electrolyzed, electrolysis conditions (current value and voltage value, The distance between the electrodes, etc.), the gas to be treated can be treated under the optimum conditions (at least as far as it can be purified), and the treatment cost can be reduced as much as possible.

For example, when fungi such as viruses and bacteria in the air are sterilized or sterilized, a sufficient sterilization effect can be obtained even when the residual chlorine concentration in the storage tank 1 of the electrolytic water (E) is 5 ppm or less. On the other hand, in the case of treating air in a highly polluted area such as a hospital, it can be set to a higher residual chlorine concentration of about 10 to 20 ppm, and depending on the object to be treated, the residual chlorine concentration may be set higher )You may. That is, the residual chlorine concentration of electrolytic water (E) in the storage tank (1) can be set to a desired concentration economically suitable.

(2) When deodorizing VOC gas in a painting factory, a liquid crystal manufacturing factory, a chemical factory, etc., it can be highly deodorized than a conventional scrubber method (droplet spraying method in a gas).

When this VOC gas purification test was carried out, the following results were obtained. That is, a standard gas of hydrogen sulfide and methyl mercaptan is prepared as a source of the malodorous gas, and 0.5 wt% of saline solution is electrolyzed by the electrolytic device 4 to circulate with the storage tank 1, The chlorine concentration was adjusted to be 80 ppm.

When the measurement was made at the inlet of the purification apparatus of this gas (using a gaseous detection tube), the amount of hydrogen sulfide was 3.3 ppm, which was reduced to 0.1 ppm at the outlet and 1.8 ppm of methylmercapton at the outlet, Respectively. That is, the hydrogen sulfide had a removal rate of 97%, the methyl mercapton had a removal rate of almost 100%, and the gas purification was almost complete.

In order to improve the compatibility of the VOC gas with the electrolytic water (E) in the case of treating the VOC gas containing an organic compound (for example, benzene or toluene) which is poorly soluble in water, an amphiphilic solvent such as DMSO, When DMAc, ethanol, or the like is dissolved in the electrolytic water (E), the affinity and solubility of the VOC gas in the electrolytic water (E) is improved, and the efficiency of purifying the gas is increased.

(3) When I conducted a test on the purification of cigarette smoke, the following results were obtained. That is, 0.5 wt% of saline solution is electrolyzed by the electrolytic device 4 and circulated with the storage tank 1 to adjust the residual chlorine concentration of the electrolytic water E of the storage tank 1 to 80 ppm, (Trademark: Mild Seven " registered trademark ") was continuously burned and supplied to the purifying mechanism of the gas.

The amount of acetaldehyde was 2.5 ppm, which was reduced to 0.4 ppm at the outlet, and the amount of ammonia was 5.0 ppm, which was below the detection limit at the outlet (measured at the inlet of the purifying apparatus of this gas) The amount of carbon monoxide which was 70 ppm was reduced to 15 ppm at the outlet and the amount of nitric acid was 0.7 ppm at the outlet, and it was below the detection limit at the outlet. The NOx of 1.1 ppm was 0.4 ppm at the outlet. As a result, it was confirmed that the gas was sufficiently purified.

Therefore, the purifying mechanism of this gas is useful for the purification of cigarette smoke in the facilities of various public institutions or the indoor space of private homes.

(4) When airborne bacteria such as viruses or bacteria in the air of various buildings are sterilized or sterilized and suspended bacteria particles are removed, when the ion of the government is released in the air as described above (Sterilization purification and improvement of particle cleanliness) can be achieved.

(* The oxidizing action of the OH radical is exerted by the electrolytic water E in the storage tank 1), and the sterilization and purifying action for the viruses and bacteria is carried out in the electrolytic water (E) For example, in the case of releasing ions of the government in the air), there is no fear that a person may suck it in by breathing and be adversely affected.

The action of the electrolytic water E on the object to be cleaned in the fine bubbles 3 is made in the closed space (in the liquid) of the storage tank 1, so that it can be relieved in terms of the effect on the external space There is an advantage that the concentration of the electrolytic water E can be adjusted as desired due to the fact that the effect of the electrolytic water E is blocked.

(5) It was possible to deodorize and detoxify the gas containing the carbides (causing odor) and harmful substances (such as dioxin) contained in the exhaust gas of the incinerator or the boiler and making them odorless.

Examples of the object to be cleaned of this gas include biological components such as airborne viruses (for example, influenza viruses) and airborne bacteria such as bacteria, chemical components such as VOC gas and cigarette smoke, carbides generated after dust or incineration, The physical components may be exemplified.

The biological component is sterilized or sterilized by the action of OH radicals in the electrolytic water of the tank, so that it becomes hygienic. The chemical component is oxidized and decomposed to be deodorized. The physical component is removed by being poured into electrolytic water, The contaminated gas is purified and becomes clean and returned to the room in a refreshed state or discharged into the atmosphere.

Accordingly, the purifying mechanism of this gas is a hospital, a school, a kindergarten, an elderly care facility, a public institution, a department store, a smoking room and a game room of a shopping center (in general, the smoke is considerably severe) Air cleaning of VOC gas in painting factories, liquid crystal manufacturing plants, chemical plants, etc., and also in various other applications such as harmlessness, odorlessness of exhaust of incinerator and boiler, and the like.

In addition, airplanes, airplanes and airplanes have a closed space, so even if they are for a short period of time, infectious diseases are very likely to happen. If this gas purifier is installed, there will be an increase in the number of infectious diseases (such as swine influenza) Can be prevented.

In addition, when the vehicle is stowed in a car, a passenger car, or a truck, the exhaust gas of another vehicle can be purged from the purifier of the vehicle and blown into the interior of the vehicle as fresh and clean air. Can be performed.

It can also be applied to other types of vehicles such as trains, buses, ships, and other vehicles (or spaceships). For example, if it is equipped on a 10,000-won train, it can refresh the unpleasant air polluted by the breathing of all the passengers and return to the inside of the car, thereby greatly alleviating fatigue, frustration and irritability of the passenger, It is also possible to secure the prevention of diseases.

The purifying mechanism of this gas can also be applied to a clean room because physical components such as suspended particulates can be removed. That is, it is possible to remove particulate matter in the clean room and volatile chemical components generated in the room. It can also purify harmful chemical components that have been sucked in the drafts of chemical laboratories and release them into the air as clean ones.

E; Electrolytic water
One; Storage tank
2; The gas boosting means
3; Fine bubble

Claims (1)

The electrolytic water E having a storage tank 1 in which the electrolytic water E is stored and a gas booster means 2 and an acid pipe 5 at a position deep under the electrolytic water E stored in the storage tank 1, Gas is supplied to the minute bubbles (3) through the air diffuser (2) and the oxidizing action by the electrolytic water (E) is influenced on the fine bubbles (3) A demister is provided in the electrolytic water (E) contained in the storage tank (1) in contact with the minute bubbles (3) during its lifting to extend and finely disperse the required floating time,
And a two-layered activated carbon adsorption layer (6) is provided above the storage tank (1).

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