KR20120132109A - A Device and method for reduce offensive odor - Google Patents

Abstract

PURPOSE: A bad odor purifying method and an apparatus for the same are provided to extend the life of activated carbon by reducing the using amount of the activated carbon. CONSTITUTION: A bad odor purifying apparatus includes a suction duct(10), an air blower(20), a condenser(30), and an absorption column(40). The suction duct introduces air containing bad odor. The air blower sucks air through the suction duct. The condenser cools the air containing bad odor and condenses vapor in the air to be removed. The absorption column absorbs remaining bad odor components from dried air through the condenser to be removed. The condenser cools and condenses the air containing bad odor by using coolant containing water or ammonia. [Reference numerals] (30) Condenser; (31) Cooling column; (32) Coolant tank; (33) Coolant pump; (42) First activated carbon absorbent; (44) Second activated carbon absorbent; (46) Plasticized yellow soil absorbent; (48) Zeolite absorbent; (AA) Exhaustion; (BB) Bad odor; (CC) Treating condensate water

Description

Odor purification method and apparatus for purification {A Device and method for reduce offensive odor}

The present invention relates to a method for effectively purifying odorous substances generated in food waste treatment devices (feeding and composting facilities) and livestock manure composting facilities, and to a method for effectively purifying the same, and more particularly to air containing odorous gases. To remove most of the water-soluble odorous substances by first condensation, and then adsorbs and removes the residual odorous gas contained in the dry air in the adsorption tower by using activated carbon, calcined ocher and zeolite sorbents to extend the service life of the sorbents and to reduce the odor purifier at low cost. It is to be able to operate.

Among the food waste recycling facilities, fermentation, dehydration, and drying facilities are necessary to reduce the odor generated. In addition, in the composting facility using livestock powder, odors are generated, and complaints are also generated around farms.

Table 1 summarizes the odor causing substances and their characteristics.

compound
Character of smell

Cause name

Sulfur compounds

Onion, cabbage rotten

Methyl mercaptan, methyl sulfide, methyl disulfide, etc.
Rotting egg

Hydrogen sulfide

Nitrogen compounds

Manure smell

Ammonia, ethylamine, etc.
Fish rotting

Methylamine, trimethylamine, etc.


Aldehydes

Irritating, sour, burning smell Acetaldehyde
Propionaldehyde
n-butylaldehyde
i-butynaldehyde
n-valeraldehyde
i-valeraldehyde etc.


Hydrocarbons
Pungent smell

Ethyl acetate
Methyl Isobutyl Ketone

Gasoline smell

Toluene, styrene, xylene, etc.



Fatty acids
Irritating sour smell

Propionic acid, etc.
Sweat smell

Normal butyric acid
Smell from wet shoes

Normal valeric acid
Isovales

As shown in Table 1 above, sulfur compounds with onion or cabbage rot or egg rot, nitrogen compounds with manure or fish rot, aldehydes with irritating, sour and burning smell, irritating tinner or Most of the substances reacted with hydrogen (H) in molecular formulas, such as gasoline-smelling hydrocarbons, irritating sour or sweaty smells or wet shoe-smelling fatty acids, are mostly water-soluble odorants. Therefore, it can be seen that almost all malodorous substances are water-soluble.

As such, most of the odorous substances generated during the fermentation and drying process of food and livestock are water-soluble gas and remain in water vapor in the air. Therefore, by removing the moisture in the air most of the odor can be removed.

On the other hand, the conventional techniques for removing odorous substances generated in the food waste treatment apparatus and livestock manure composting facility, etc. have been invented in various ways, and also applied to the field. Commonly used methods include adsorption using activated carbon, collecting and compressing odorous substances separately, treating them by burning odorous gases to burn off odorous substances, cultivating special microorganisms that eliminate odors, and using odorous substances Various methods have been developed and put into practical use, such as deodorizing method using ozone, hiding deodorant using deodorant or fragrance, etc., but most of them are expensive to install and have high operating cost. Even if the installation is delayed or installed due to the burden on the installation cost, the replacement cost of the consumables and consumable parts is too high, and thus it is not effective to remove the odor.

At present, the most frequently used method of odor reduction facilities is odor adsorption by activated carbon, which is a method of numerous pores of activated carbon using activated carbon or coal using activated carbon or coal to burn odor. The method of adsorb | sucking to a pore using is used. However, since moisture in the air is first adsorbed to the pores of activated carbon to occupy most of the pores, the pores of the activated carbon are clogged quickly, so the odor adsorption rate is drastically reduced and there is no way to supplement the activated carbon. to be.

In addition, in the case of adsorbing odor using only activated carbon, the type of adsorbent is limited, so the adsorption efficiency is limited to about 70%. When this deposits, the effect drops sharply.

On the other hand, activated carbon has a high replacement cost and waste carbon after replacement is required to be treated as waste at a separate cost. Therefore, the activated carbon is used as it is without replacement at the time of proper replacement. It is often operated in the absence of any adsorption effect.

The present invention has been made in order to solve the above problems, activated carbon by removing in advance the water-soluble odorous substances by removing the moisture in the air in which most of the odorous substances dissolved, and in advance to remove the water that occupies most of the pores of activated carbon To extend the life of the product as much as possible.

In order to achieve the above object, the present invention focuses on the fact that in order to effectively purify the odor in the air, the water-soluble gas must be removed first, and the process includes condensing water vapor into water to remove water vapor contained in the air first. To provide a odor purifying method and a purifying device, the odor purifying apparatus of the present invention includes a condenser for condensing water vapor in the first place, thereby removing a large portion of the odorous substances contained in the water vapor as a water-soluble gas Provided are a odor purification method and a odor purification device.

Also, the adsorption tower for four stages of odor adsorption and collection consisting of activated carbon adsorbents with different particle sizes, calcined ocher adsorbents and zeolite adsorbents in order to remove odors in steam not condensed in the condenser and remaining odorous substances contained in the dry air This is used.

The present invention is a five-step odor purifying apparatus including water removal, activated carbon adsorbents having different particle sizes, calcined ocher adsorbents and zeolite adsorbents, and is relatively simple to manufacture, thus inexpensive to manufacture and condensing water vapor. Since the next dry air passes through the adsorbent, it has the advantage of increasing the service life of the adsorbent much more than the general adsorption tower, so that operating costs can be kept at a low cost.

The present invention removes the water-soluble malodorous substances in advance by removing the water in the air in which most of the malodorous substances are dissolved in advance, and in advance to remove the water that occupies most of the pores of the activated carbon to significantly reduce the amount of activated carbon used It also has the advantage of extending the service life of activated carbon.

That is, the present invention is a condenser for condensing and removing water as a primary, an activated carbon adsorbent having a large particle size (preferably using crushed coal or granulated coal having a particle size of 2 to 5 mm), and an activated carbon adsorbent having a relatively small particle size. (Preferably granulated coal briquettes with a particle size of 0.5 ~ 2mm), and through the high-performance calcined ocher adsorbent produced by firing at high temperature by using the ocher as the raw material in the fourth order, and the last adsorption step using the zeolite adsorbent in the fifth order.

Therefore, the conventional adsorption method using only activated carbon is only about 70% of the adsorption efficiency is expected to be processed more than 90% of the malodorous components after a total of five steps as in the present invention, Firstly, since most of the moisture in the air is condensed and removed, the amount of adsorbent can be greatly reduced, and the useful life of the adsorbent can also be significantly increased.

1 is a block diagram showing a processing step of the odor purifying apparatus according to the present invention,
Figure 2 is a front view showing an embodiment of the odor purifying apparatus according to an embodiment of the present invention,
3 is a plan view of the malodor treatment apparatus shown in FIG.
4 is a front configuration diagram of an odor treatment apparatus according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

1 to 3 illustrate the odor purifying apparatus according to the first embodiment of the present invention. In this embodiment, an example of applying the odor to the odor generated in the barn is shown. The suction duct 10 and the blower ( 20), the condenser 30 and the adsorption tower 40 which has a multistage adsorbent layer.

The suction duct 10 is installed inside the livestock manure or livestock manure composting facility where odor is generated to introduce air containing the odor to the odor purifying apparatus of the present invention. Do not put

In the present invention, the blower 20 serves to supply the dry air to the adsorption tower 40 after the air introduced through the suction duct 10 is removed moisture through the condenser 30.

On the other hand, the condenser 30 is to condensate and remove water (water vapor) in the air containing the malodor before the air containing the malodor comes into contact with an adsorbent such as activated carbon, which is a kind of heat exchanger containing water or ammonia Rapidly cooling the air containing odor while circulating various refrigerants removes water vapor from the air, and when the dry air is made, the water-soluble gas particles contained in the air are collected in the water made by condensation of water vapor.

In the present embodiment, the condenser 30 is installed at the front of the adsorption tower 40, and as shown in FIG. 1, a facility for cooling while circulating a refrigerant containing water or ammonia is added, which is Coolers (cooling towers), refrigerant tanks and refrigerant pumps indicated by numerals 31, 32 and 33.

The condenser 30 used in the present invention is a kind of heat exchanger. Since the principle and specific structure of the heat exchanger are well known by those skilled in the art, detailed description thereof will be omitted.

Meanwhile, although not specifically illustrated in FIGS. 1 to 3, the water condensed in the condenser 30 may be separated along a separate channel and discharged after removing odor particles in water through a separate condensate treatment facility.

In the embodiment shown in Figures 1 to 3 the adsorption tower 40 is made of a horizontal type. That is, in this embodiment, the activated carbon adsorbents 42 and 44, the calcined ocher adsorbent 46, and the zeolite adsorbent 48 constituting the adsorption tower 40 are arranged in parallel in the horizontal direction. Suitable type.

In the present invention, the first activated carbon adsorbent 42, the second activated carbon adsorbent 44, the calcined ocher adsorbent 46, and the zeolite adsorbent 48 installed inside the adsorption tower 40 are shown in FIG. 2 and FIG. 3. As can be seen from the plan view, each inlet I is provided at the upper side, and the outlet O is installed at the lower side, so that the adsorbent can be easily replaced.

In the drawing, reference numeral 49 is a discharge pipe through which the purified air is discharged to the outside after the malodorous component is finally deodorized in the adsorption tower 40.

In the drawing, reference numeral 50 denotes a measuring branch pipe for measuring the degree of contamination of the air containing the malodorous component. The measuring branch pipe is provided with a measuring port, and the suction duct 10 is connected to the blower 30. Branched to the measuring branch pipe, each of the branch pipe side is provided with dampers, that is, valves V1 and V2 for opening and closing.

Activated carbon adsorbents have numerous pores (pores) that absorb and capture odor particles and other gaseous substances. However, if there is moisture in the air, the moisture in the air is first filled in the pores, which prevents the micropores of the activated carbon, and serves to drastically reduce the life of the activated carbon, that is, the function of the activated carbon.

Therefore, in the present invention, it is possible to extend the life of activated carbon by first removing the moisture in the air containing the water-soluble odor component in the condenser 20 and then adsorbing dry air.

Meanwhile, in the present invention, the primary activated carbon adsorbent 42 preferably uses crushed coal or granulated coal having a particle size of 2 to 5 mm, and the secondary activated carbon adsorbent 44 uses granulated coal having a particle size of 0.5 to 2 mm. Preferably, but not always limited thereto. It is a matter of course that these particle sizes may be varied depending on the use of the purification device.

In addition, unlike the conventional method using only activated carbon, the present invention adsorbs 70% of the malodorous particles in the first and second activated carbon adsorbents 42 and 44, and then granulates the loess and generates high temperature (about 1,000 to 1,100 ° C). By firing in) to form a large number of micropores therein, the adsorbed odor particles in the micropores, as well as through the calcined ocher adsorbent 46 to neutralize the odor particles.

In addition, in the present invention, the malodorous air is finally passed through the zeolite adsorbent 48. Zeolite is a mineral in which an anion made of a combination of aluminum oxide and silicate oxide is combined with an alkali metal and an alkaline earth metal. It has pores, and through these micropores, the residual odor particles are finally adsorbed to discharge clean air.

Figure 4 shows the configuration of the odor purifying apparatus according to the second embodiment of the present invention, in this embodiment, the condenser 30 and the adsorption tower 40 is formed separately as a odor purifying apparatus suitable for large-scale equipment, adsorption tower The embodiment 40 is different from the embodiment shown in FIGS. 1 to 3 in that it is vertical, but the basic configuration and principle are the same.

That is, in this embodiment, the air containing the malodor is passed by the blower 20 after passing through the condenser 30 to be supplied to the adsorption tower 40, which is the condenser in the embodiment shown in Figs. And there is a difference in configuration that the position of the blower is reversed, but functionally the same, the adsorption tower 40 is also made of a horizontal type in Figures 1 to 3, but in this embodiment the adsorption tower 40 is made of a vertical type Only functional differences are the same.

In this embodiment, the adsorbents 42, 44, 46, and 48 layers are stacked in a plurality of stages in the vertical adsorption tower 40. Even in this embodiment, the respective adsorbent layers are inclined diagonally to facilitate replacement of the adsorbents. It is arrange | positioned in the state, Inlet is formed in the upper side, and the outlet is formed in the lower side, respectively. That is, in this embodiment, the adsorbent is installed in an inclined form in the oblique direction instead of the horizontal bed in the adsorption tower, which is to facilitate the replacement of the adsorbent.

The present invention first removes odor particles combined with water vapor in the air from the condenser 20, and then passes through an adsorption tower 40 in which various kinds of adsorbents 42, 44, 46, and 48 are installed. Since it is configured to adsorb and remove odor particles in the air, there is an advantage that can effectively extend the life of the adsorbent.

In addition, unlike the odor purifier using only activated carbon, the present invention passes through a total of four adsorbents (first activated carbon adsorbent, second activated carbon adsorbent, calcined ocher adsorbent, and zeolite adsorbent), and various odors according to their characteristics. By absorbing and removing the causative substance, that is, gaseous particulate matter, it has a superior effect in removing odors, and it is possible to simultaneously remove various gaseous particulate matter which has not been removed by conventional activated carbon adsorbent.

On the other hand, the present invention may be slightly higher than the existing activated carbon packed adsorption tower (deodorization tower) equipment cost, the operating cost can be significantly reduced to 1/3 to 1/10, which is the heat exchange for steam condensation before activated carbon adsorption Although the installation cost of the gas is added, the activated carbon filling amount can be reduced by about half, and the calcined ocher adsorbent and the zeolite adsorbent can achieve a satisfactory effect even when only half of the activated carbon adsorbent is filled. It can be used for half the cost and filled with calcined ocher adsorbent and zeolite adsorbent at the other half, and the operating time (life time) of adsorbent can be extended by 3 ~ 10 times compared with the existing method. It can be reduced to 3 to 1/10.

10: suction duct 20: blower
30: condenser 31: cooler
32: refrigerant tin 33: pump
40 adsorption tower 42 first activated carbon adsorbent
44: second activated carbon adsorbent 46: calcined ocher adsorbent
48 zeolite adsorbent 50 measurement branch pipe

Claims (6)

The suction duct 10 into which the air containing the odor is introduced, the blower 20 for sucking air through the suction duct 10, and the air containing the odor sucked by the blower 20 to cool the air. And a condenser (30) for condensing and removing water vapor in the water, and an adsorption tower (40) for adsorbing and removing residual odor components in the dry air passing through the condenser (30).
The method according to claim 1,
The condenser (30) is a odor purifying device, characterized in that to condensate by cooling the air containing the malodor using a refrigerant containing water or ammonia.
The method according to claim 1,
The adsorption tower 40 is activated carbon adsorbent (42,44), calcined ocher adsorbent 46, zeolite adsorbent 48, characterized in that the sequential arrangement is arranged.
The method according to claim 3,
The activated carbon adsorbents 42 and 44 are composed of a first activated carbon adsorbent 42 made of crushed coal or granulated coal having a particle size of 2 to 5 mm, and a second activated carbon adsorbent 44 made of granulated coal having a particle size of 0.5 to 2 mm. Odor purifier, characterized in that.
The method according to claim 3,
The calcined ocher adsorbent 46 makes the ocher granules, and calcined it at 1,000 to 1,100 ° C. to produce numerous micropores therein.
Using the odor purifying device of claim 1 to 5, the condenser removes water in the air containing odorous substances generated from food waste processing equipment (feeding and composting facilities) or livestock manure composting facilities in advance, and then removes the moisture. Odor purification method characterized by deodorizing the odor component in the dry air through the adsorption tower.

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