JP3479216B2 - Gas reformer - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas reforming apparatus for reforming a gas to a desired content such as treating exhaust gas or safely treating gas for supply.

[0002]

2. Description of the Related Art Conventionally, a device for treating exhaust gas and the like has been provided, but the contact with a so-called exhaust gas reforming liquid is vertical, and the device itself is very large and costly. It was expensive. That is, in the conventional exhaust body treatment apparatus, there are various problems that the types of exhaust bodies that can be treated are limited, the apparatus itself becomes large, and the manufacturing cost is high.

On the other hand, since a so-called gas reforming apparatus for reforming gas into a clean one is required because it requires the introduction of fresh air, it is a large-scale special gas used for special applications such as LSI manufacturing. It is only a reformer, and other uses, for example, a simple gas reformer such as a reformer for air introduced into a kitchen has not been provided. That is, the application of such a device was mainly used only for collecting waste gas generated during the production of chemical products, etc., to remove odors in exhaust gas generated in general buildings, and to introduce air into the outside air in food production. The reality is that there is no gas reforming device used for sanitary control.

[0004]

Thus, the present invention has been made in view of the above problems of the prior art. Since the structure is simple and simple, the device can be made smaller than the conventional one,
Moreover, it is an object of the present invention to provide a gas reforming apparatus that can process a wide variety of gas reforming. It is also an object to provide a so-called multi-stage gas reformer capable of efficiently removing a complex gas component by connecting a plurality of gas components in series according to the purpose of removing the component. It is a thing.

[0005]

Gas reforming according to the invention
The device is installed so as to block the gas passage,
With a plurality of through holes that pass through in the passage direction of the road,
In addition, it is rotatable about the center of the gas passage direction as the axis of rotation.
Liquid contact with a shape and surface coated with titanium oxide
A member, a light source for irradiating the liquid contact member with light, and
A rotating member for rotating a liquid contact member, and the liquid contact portion
And a gas reforming liquid that adheres to the material.
Or provided so as to block the gas passage,
A plurality of through holes that penetrate in the passage direction of the body passageway
Equipped and rotatable about the center of the gas passage direction
It has a substantially cylindrical shape and its surface is coated with titanium oxide.
The liquid contact member, and irradiating the liquid contact member with ultraviolet rays.
A light source, and a rotating member that rotates the liquid contact member,
A gas reforming liquid attached to the liquid contact member.
Or the gas reforming device is duplicated.
It is characterized in that several units are provided in series.
It

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of a gas reforming apparatus according to the present invention will be described below with reference to the drawings. In FIG.
Reference numeral 1 indicates a schematic configuration of the gas reforming apparatus. The gas reforming device 1 is provided in a gas passage 2. That is, in FIG. 1, the gas 3 moves in the gas passage 2 having a substantially cylindrical shape, but the reformer 1 is placed at a predetermined position in the gas passage 2.
Is provided.

As can be seen from FIG. 1, the gas passage 2
The reforming device 1 is provided inside so as to bulge outward. Here, reference numeral 4 indicates a liquid contact member. As can be understood from FIG. 2, the liquid contact member 4 has a plurality of through holes 5 inside and is formed to have a substantially cylindrical outer shape.
It is installed in the bulging portion 6 of the gas passage 2. Then, the plurality of through holes 5 are installed so as to extend in a direction parallel to the gas flow direction.

And as will be further understood from FIG.
Due to the formation of the plurality of through holes 5, the liquid contact member 4 appears as a honeycomb pattern on both side surfaces. The material of the liquid contact member 4 is not limited at all, but it is preferable that the liquid contact member 4 is formed of a ceramic member in consideration of durability and the like. The liquid contact member 4 installed in the bulging portion 6 is rotatable by a rotation member 7 such as a rotation driving roller with the substantially central position of the gas passage 2 as a rotation axis.

Reference numeral 8 indicates a lamp for a light source, and the liquid contact member 4 is irradiated with the light from the lamp 8. The surface of the liquid contact member 4 is usually coated with titanium oxide such as titanium oxide, and when irradiated with light from the lamp 8, it decomposes and self-cleans organic substances and NO _X , NO ₂ , CO, CO. A gas reforming effect such as ₂ is promoted.

If the lamp 8 is a UV lamp and is irradiated with ultraviolet rays (UV), the above effect is further enhanced and the sterilizing action is also improved. Reference numeral 9 is a gas reforming liquid, and different components of the gas reforming liquid 9 are used depending on the components of the gas to be reformed. Then, as can be understood from FIG. 1, the gas reforming liquid 9 flows into the liquid contact member 4 from above the bulging portion 6, and spreads over the entire surface of the liquid contact member 4 and the plurality of through holes 5 are formed. Permeates into the inside of the swelling and accumulates below the bulging portion 6.

The usage of this embodiment will be described above. The gas 3 to be reformed introduced from the introduction side of the gas passage 2 into the reforming device 1 is introduced into the reforming device 1,
It contacts the liquid contact member 4. The liquid contact member 4 is rotating at a predetermined speed, so that the gas reforming liquid 9 introduced from the upper portion uniformly wets the surface thereof, including the inner surfaces of the plurality of through holes 5.

As described above, the gas reforming liquid 9 uniformly wets the surface of the liquid contact member 4, so that the gas 3 to be reformed and the gas reforming liquid 9 react efficiently, and each of the desired contents can be obtained. It can be reformed into the gas 3. Then, the gas 3 after being reformed flows out from the discharge side of the gas passage 2 shown in FIG.

Therefore, as described above, the liquid contact member 4
The gas reforming liquid 9 is supplied from above the liquid contact member 4, and the reformed gas reforming liquid 9 is discharged from a predetermined position below the liquid contact member 4. . If such a structure is adopted, the surface of the liquid contact member 4 is always immersed in the new gas reforming liquid 9, and the rotation operation of the liquid contact member 4 allows the gas reforming liquid 9 to uniformly permeate. Will be things.

Now, the light source lamp 8 provided inside the apparatus of the present invention, for example, the UV lamp 8 will be described. The U
The V lamp 8 activates a material such as titanium oxide or the like that is sintered or added to the surface of the liquid contact member 4 to decompose and self-clean the organic substance and to reform gas such as CO, CO ₂ , NO ₂ and NO _X. Make it more effective and promote.

For example, when the UV lamp 8 is turned on when an organic substance such as an oil mist or an odor component during cooking passes through the plurality of through holes 5 of the liquid contact member 4, the gas reforming liquid 9 is turned on. It is possible to wash away the organic substances collected in. In addition, the cleanliness of the surface of the liquid contact member 4 can be maintained at all times, and the continuous organic substances in the exhaust body can be removed and decomposed without lowering the removal efficiency.

By the way, the liquid contact member 4 is composed of the rotating member 7
(Rotation driving roller) rotates about the center of the gas-gas passage 2 as a rotation axis. Then, the gas reforming liquid 9 descends from the upper part to the lower part by the action of centrifugal force and gravity during rotation, and spreads over the entire liquid contact member 4 so that the entire surface can be evenly wetted. .

The outer shape of the liquid contact member 4 is substantially cylindrical as described above.
A plurality of through-holes 5 each having a substantially regular hexagonal honeycomb shape are provided so as to penetrate through the circular side surfaces. With such a configuration, the surface area of the liquid contact member 4 including the inside of each of the through holes 5 becomes extremely large, and the resistance to the gas passing through the liquid contact member 4 can be reduced. Becomes

Therefore, a large amount of the gas to be reformed can be efficiently passed through the through hole 5 in the liquid contact member 4 and processed. In addition, in the present embodiment, the liquid contact member 4 has a substantially cylindrical shape and the through hole 5 has a honeycomb shape. However, the liquid contact member 4 is not limited to the shape and may be any shape. It may be in any shape.

FIG. 3 shows a second embodiment of the present invention, in which a plurality of liquid contact members 4 are provided in series. When the gas 3 to be reformed contains a plurality of components, it is difficult to perform sufficient reforming with one type of gas reforming liquid 9. However, by providing a plurality of liquid contact members 4 in series and connecting them, the gas reforming liquid 4 can be used in each liquid contact member 4 according to the purpose of removal, so that reforming for each component Is possible.

For example, when treating sewage, sewage or human waste, by providing a plurality of liquid contact members 4 in series,
From the exhaust containing odor generated in the reforming process,
It is possible to separate the pollutants and the odorous components for modification treatment. In addition, since it is possible to simultaneously perform the removal treatment of toxic gas components in the air and the removal treatment of mold bacteria at the time of introducing the outside air during food production or chemical production,
It is also possible to reliably prevent the product from being contaminated by the outside air of the manufacturing site.

To give a specific example, only the water is added to the first reformer 1 to wet the liquid contact member 4, and then, in the second reformer 1, an alkali is used as the gas reforming liquid 9. It is conceivable that the gas is reformed by adding the above, and finally the gas is reformed with acid.

[0022]

As described above, the present invention has the above constitution.
With the gas reforming apparatus according to the present invention, it is possible to greatly improve the contact efficiency between the gas to be reformed and the reforming liquid used for reforming, and thus the effect on the gas according to the content of each purpose. Can be modified.

Further, the apparatus can be downsized by improving the contact efficiency, and the gas reforming apparatus according to the present invention can be installed inexpensively regardless of whether it is new or existing. Further, due to the miniaturization of the device, the device can be configured by connecting a plurality of systems in series, and the gas complexed with a plurality of components can be easily reformed.

[Brief description of drawings]

FIG. 1 is a schematic configuration explanatory diagram (1) of the present invention.

FIG. 2 is a schematic configuration explanatory diagram (2) of the present invention.

FIG. 3 is a schematic view showing another embodiment of the present invention.

[Explanation of symbols]

1 Gas reformer Passage of 2 gas 3 gas 4 Liquid contact member 5 through holes 6 bulge 7 Rotating member Lamp for 8 light sources 9 Gas reforming liquid

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI B01J 35/02 B01D 53/36 102D (58) Fields surveyed (Int.Cl. ⁷ , DB name) B01D 53/34-53 / 90 A61L 9/00 A61L 9/18-9/20

Claims (3)

(57) [Claims] 1. A shape which is provided so as to close the gas passage and has a plurality of through holes penetrating in the passage direction of the gas passage, and which is rotatable about an axis in the gas passage direction as a rotation axis. None, a liquid contact member whose surface is coated with titanium oxide, a light source that irradiates the liquid contact member with light, a rotating member that rotates the liquid contact member, and a gas reformer that adheres to the liquid contact member A reforming device for gas, comprising: 2. A substantially cylindrical cylinder, which is provided so as to close the gas passage, has a plurality of through holes penetrating in the passage direction of the gas passage, and is rotatable about a center in the gas passage direction as a rotation axis. A liquid contacting member having a surface and covered with titanium oxide, a light source for irradiating the liquid contacting member with ultraviolet light, a rotating member for rotating the liquid contacting member, and a gas attached to the liquid contacting member A reforming device for gas, comprising: a reforming liquid. 3. A gas reforming apparatus comprising a plurality of the gas reforming apparatus according to claim 1 or 2 arranged in series.