KR100545941B1 - Biofilter apparatus - Google Patents

Abstract

The present invention relates to a biofilter device, comprising a carrier storage tank 20; A support member 30 provided inside the carrier storage tank 20 to support the carrier layer 10; A gas supply pipe 40 connected to the carrier storage tank 20 and supplying gas to the inside of the carrier storage tank 20; An injection mechanism (50) installed in the gas supply pipe (40) to inject water into the gas passing through the gas supply pipe (40) to remove water-soluble odors; A gas discharge pipe 60 connected to the carrier storage tank 20 and discharging gas to the outside of the carrier storage tank 20; It is configured to include at least one guide duct 70 provided in the carrier storage tank 20 to guide the gas passing through the carrier layer 10 to the gas discharge pipe 60. Accordingly, the configuration of the biofilter device can be simplified and the purification efficiency can be further improved.

Carrier storage tank, support member, gas supply pipe, injection mechanism, gas discharge pipe, guide duct

Description

Biofilter Unit {BIOFILTER APPARATUS}

1 is a block diagram showing a conventional biofilter device,

2 is a block diagram illustrating a biofilter device according to the present invention;

Figure 3a and Figure 3b is a cross-sectional view showing the injection mechanism installation state of the biofilter device according to the present invention,

4 is a cross-sectional view illustrating a guide duct structure of a biofilter device according to the present invention.

             <Description of Symbols for Main Parts of Drawings>

             10: carrier layer 20: carrier storage tank

             30: support member 40: gas supply pipe

             50: injection mechanism 52: inlet pipe

             54: injection nozzle 60: gas discharge pipe

             70: guide duct 80: activated carbon filter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a biofilter device, and more particularly, to a biofilter device capable of removing odors and harmful components contained in gas through microorganisms.

In general, odors and harmful components contained in the gas discharged from the industry are treated by an adsorption or absorption method or by chemical decomposition performed at a high temperature.

Recently, with the growing interest in environmental issues, efforts are being made to remove odors and harmful components contained in gas by using microorganisms instead of chemicals. Biofilter (Biofilter) is a representative method of biological treatment using microorganisms. ) Device. Biofilter device has the advantage that the overall treatment process is relatively simple, as well as economical, the demand is increasing.

Conventional biofilter apparatus, as shown in Figure 1, the carrier storage tank (2); A support member 4 provided inside the carrier storage tank 2 to support the carrier layer 1; A gas supply pipe 6 connected to a lower side of the carrier storage tank 2 and supplying gas into the carrier storage tank 2; It is connected to the upper center of the carrier storage tank 2, it is composed of a gas discharge pipe (8) for discharging the gas to the outside of the carrier storage tank (2). With this configuration, the gas supplied into the carrier storage tank 2 through the gas supply pipe 6 is purified while passing through the carrier layer 1 and discharged to the outside through the gas discharge pipe 8.

However, such a biofilter device can remove odors and harmful components contained in the gas only through the carrier layer 1, and there is a limit in improving the purification efficiency.

In particular, the water-soluble odor contained in the gas has a problem that it is difficult to completely remove only by the carrier layer (1). In consideration of these problems, some of the biofilter apparatuses capable of removing water-soluble odors by spraying water through a humidifying part have been disclosed. However, the configuration thereof is complicated, and as a result, the assembly and economic efficiency are deteriorated. There is a disadvantage that the purification process is delayed by the introduction of furnace gas.

In addition, the gas discharge port 8 is formed in the upper region of the carrier storage tank 2, there is a problem that the gas purified through the carrier layer (1) is not quickly discharged to the outside of the carrier storage tank 2, which is a bio This results in a lowering of the filter capacity of the filter device.

The present invention has been made to solve the above problems, an object of the present invention is to provide a biofilter device that can improve the purification efficiency and purification capacity of the gas.

The present invention, the carrier storage tank to achieve the above object; A support member provided in the carrier storage tank and supporting the carrier layer; A gas supply pipe connected to the carrier storage tank and supplying gas into the carrier storage tank; An injection mechanism installed in the gas supply pipe to inject water into the gas passing through the gas supply pipe to remove water-soluble odors; A gas discharge pipe connected to the carrier storage tank to discharge gas to the outside of the carrier storage tank; It is characterized in that it comprises at least one guide duct provided in the carrier storage tank, the gas passing through the carrier layer to the gas discharge pipe.

The injection mechanism includes an inlet pipe through which water is introduced; It is preferred that the inlet pipe is provided with an injection nozzle for injecting water into the gas supply pipe.

The inlet pipe is branched, and the injection nozzle may be installed at each end of the branched inlet pipe.

It may further include an activated carbon filter provided on the inner flow path of the guide duct.

The activated carbon filter is preferably detachably coupled to the guide duct.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 2, the biofilter device according to the present invention includes a carrier storage tank 20; A support member 30 provided inside the carrier storage tank 20; A gas supply pipe 40 connected to the carrier storage tank 20; An injection mechanism 50 installed in the gas supply pipe 40; A gas discharge pipe 60 connected to the carrier storage tank 20; It comprises at least one guide duct 70 provided in the carrier storage tank 20.

A gas inlet 22 is formed in the lower portion of the carrier storage tank 20 to allow gas containing odor and harmful components to flow therein, and the purified gas can be discharged to the outside of the carrier storage tank 20. The gas discharge ports 24 are formed in pairs. The number and position of the gas inlet 22 and the gas outlet 24 can be suitably adjusted as needed.

And the carrier storage tank 20 is made of a material that is relatively excellent in corrosion resistance and chemical resistance to prevent corrosion by the gas introduced through the gas inlet (22).

The carrier layer 10 is composed of a plurality of carriers, and each of the plurality of carriers is attached with a microorganism for removing odors and harmful components contained in the gas.

The support member 30 serves to support the carrier layer 10 and is spaced apart from the bottom surface of the carrier storage tank 20 to facilitate the flow of gas. The support member 30 may be selectively applied in a known form within a range capable of efficiently supporting the carrier layer 10, including grating, mesh, etc., the material of which is contained in the gas It is preferably made of stainless steel (SUS) or fiber-reinforced plastic (FRP) material to prevent acidification or corrosion by reaction with odor or harmful components.

The gas supply pipe 40 is connected to the gas inlet 22 to supply gas to the inside of the carrier storage tank 20, and the gas discharge pipe 60 is connected to the gas outlet 24 to supply gas to the outside of the carrier storage tank 20. Serves to discharge. The number and position of the gas supply pipe 40 and the gas discharge pipe 60 vary depending on the gas inlet 22 and the gas outlet 24.

The injection mechanism 50 is used to remove water-soluble odors by injecting water into the gas passing through the gas supply pipe 40.

The guide duct 70 is connected to the gas outlet 24 to guide the gas passing through the carrier layer 10 to the gas discharge pipe 60, and the number and position thereof are changed according to the gas outlet 24. In addition, the shape of the guide duct 70 may be variously changed within the range in which the gas passing through the carrier layer 10 can be guided toward the gas outlet 24.

As shown in Figure 3a and 3b, the injection mechanism 50 and the inlet pipe 52 through which water is introduced; It is provided at the end of the inlet pipe 52, and includes a spray nozzle 54 for injecting water into the gas supply pipe (40). With this configuration, the water-soluble odor contained in the gas can be removed in the process of passing through the gas supply pipe 40, so that a separate humidifying unit and a humidification process are not required as in the past, as well as the configuration of the biofilter device The treatment process is simplified.

The nozzle supply hole 42 is formed in the gas supply pipe 40 so that the injection nozzle 54 can be installed.

On the other hand, Figure 3a is a structure in which the injection nozzle 54 is installed in one inlet pipe 52, Figure 3b is the inlet pipe 52 is branched to further improve the removal efficiency of water-soluble odor contained in the gas In addition, the injection nozzle 54 is formed at each end of the branched inlet pipe (52).

As shown in Figure 4, the guide duct 70 is provided with an activated carbon filter 80 on the inner flow path, it is possible to maximize the gas purification efficiency. The activated carbon filter 80 may be selectively applied to a known type.

Activated carbon filter 80 is preferably detachably coupled to the guide duct 70 to facilitate installation and replacement. For example, the locking jaw may be formed on the inner surface of the guide duct 70, or the guide duct 70 may be easily and stably supported by using a connecting bracket.

The gas purification process of the biofilter device described above will be briefly described as follows.

The gas supplied through the gas supply pipe 40 is introduced into the carrier storage tank 20 while the water-soluble odor is removed by the injection mechanism 50, and the gas introduced into the carrier storage tank 20 is upward. It moves to and passes through the carrier layer 10 to be primarily purified.

The gas purified primarily through the carrier layer 10 is finally purified by the activated carbon filter 80 in the course of passing through the guide duct 70 and discharged to the outside through the gas discharge pipe 60.

As described above, according to the present invention, through the injection mechanism, the guide duct and the activated carbon filter, as well as the purification efficiency of the gas can be further improved.

In addition, since the injection mechanism is installed in the gas supply pipe, the configuration of the biofilter device can be simplified.

Claims (5)

Carrier storage tank; A support member provided inside the carrier storage tank to support the carrier layer and made of a fiber-reinforced plastic material having a grating structure; A gas supply pipe connected to the carrier storage tank and supplying gas into the carrier storage tank; It is installed in the gas supply pipe, the branch is formed in communication with the gas supply pipe inlet pipe is provided, the injection nozzle is installed at each end of the branched inlet pipe to inject water into the gas supply pipe is provided with Injection mechanism; A gas discharge pipe connected to the carrier storage tank to discharge gas to the outside of the carrier storage tank; At least one guide duct provided inside the carrier reservoir to guide the gas passing through the carrier layer to the gas discharge pipe; And an activated carbon filter detachably provided on an inner flow path of the guide duct. delete delete delete delete

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