JP2000126549A - Method and apparatus for decomposing hazardous substance - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently heat a hazardous substance such as dioxins and the like to its decomposition temperature. SOLUTION: An exhaust gas from an incinerator or the like is irradiated with a CO2 laser beam L. Because a large number of CO2 molecules are included in the exhaust gas, the CO2 molecules are instantly heated by the CO2 laser beam. That is, since the CO2 laser is oscillated when a CO2 molecule falls from a high energy level to a low energy level, light having a same wavelength is absorbed when the molecule rises from the low energy level to the high energy level. A dioxin molecule is adsorbed by incineration ash or the like, and when the CO2 molecule is heated, the CO2 molecule collides with the dioxin molecule and thermal energy possessed by the CO2 molecule is transferred to the dioxin molecule so that the dioxin molecule is effectively heated and decomposed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for decomposing harmful substances such as dioxins contained in exhaust gas from refuse incinerators and the like.

[0002]

2. Description of the Related Art Dioxins, which are organochlorine chemicals, are:
Occurs when garbage, especially plastics such as vinyl chloride, is incinerated in general incinerators. This dioxin is a very toxic substance, which accumulates in living organisms through soil and agricultural products, or through rivers and the sea, and has a risk of being gradually concentrated by the food chain and entering the human body. In addition, there is a danger that the creatures will directly inhale and accumulate in the body if scattered in the atmosphere. For this reason, the establishment of a practical technique for suppressing the emission of dioxin is an urgent issue.
As a prior art, dioxin is decomposed by heating exhaust gas passing therethrough by radiant heat from a honeycomb in contact with the exhaust gas (Japanese Patent Laid-Open No. 6-1176).
No. 98) or a method in which a harmful gas is irradiated with an excimer laser to decompose the harmful substance (Japanese Patent Laid-Open No. 7-8 / 1995).
745) has been proposed.

[0003]

However, in the former technique, since the exhaust gas passing through the honeycomb is heated by the radiant heat from the honeycomb, the flow rate of the exhaust gas cannot be increased. There is a problem that the device becomes large. The latter is advantageous in that it directly decomposes dioxin since it uses an excimer laser, but is not practical in terms of cost because it requires a very high output. In view of such circumstances, the present invention focuses on the fact that CO ₂ molecules are contained in exhaust gas, and by heating this efficiently with CO ₂ laser light, harmful substances such as dioxin can be eliminated. An object of the present invention is to provide a method and an apparatus for decomposing harmful substances that can be heated to a decomposition temperature.

[0004]

That is, the method of the present invention comprises:
It is characterized in that exhaust gas from an incinerator or the like is irradiated with CO ₂ laser light to heat it to the decomposition temperature of harmful substances such as dioxin, thereby decomposing harmful substances present in the exhaust gas. In addition, the apparatus of the present invention includes an exhaust duct through which exhaust gas from an incinerator or the like flows, and a CO ₂ gas inside the exhaust duct.
Is irradiated with a laser beam, it is characterized in that and a CO ₂ laser oscillator for closing the exhaust duct in a CO ₂ laser beam.

[0005]

According to the present invention, since generally contains a large amount of CO ₂ molecules in the exhaust gas, CO ₂ in the exhaust gas
By irradiating a laser beam, CO ₂ molecules can be heated very efficiently, and thereby harmful substances such as dioxin can be heated to the decomposition temperature and decomposed efficiently.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the illustrated embodiment. In FIG. 1, an exhaust duct 1 is arranged vertically, a lower portion thereof is connected to a garbage incinerator (not shown), and an upper portion thereof is an exhaust outlet. Is in communication with The exhaust gas from the refuse incinerator or the like flows through the exhaust duct 1 from below to above as indicated by arrows in FIG. The upper part 1a and the lower part 1b of the exhaust duct 1 have a rectangular cross-section with a horizontal cross section having substantially the same cross-sectional area. 1c is provided. That is, in the illustrated embodiment, the length of the horizontal section in the X direction of the narrowed portion 1c is considerably smaller than the length of the upper portion 1a and the lower portion 1b in the same direction. On the other hand, blocks 2 are attached to both ends in the Y direction orthogonal to the X direction in the narrowed portion 1c (see FIG. 2), so that the length of the narrowed portion 1c in the Y direction is equal to the upper portion 1a and the outer surface. It is longer than the lower part 1b. However, in the internal exhaust gas flow portion, the throttle portion 1c, the upper portion 1a, and the lower portion 1b are set to be substantially the same. The upper portion 1a and the narrowed portion 1c and the narrowed portion 1c and the lower portion 1b are connected by triangular prism portions 1d and 1e, respectively.

A CO ₂ laser oscillator 3 is provided outside the aperture 1c on an extension of the Y direction. The laser oscillator 3 and the upper end of the block 2 provided in the aperture 1c are arranged in a horizontal direction. It is connected by the tube 4 provided.
Then, the CO ₂ laser beam L from the laser oscillator 3 can be radiated through the tube 4 and the block 2 to the inside of the diaphragm 1c. In the illustrated embodiment, two reflecting mirrors 5 are arranged vertically along the flow direction of the exhaust gas in the blocks 2 provided at both ends of the aperture portion 1c. , The laser light L emitted inside the diaphragm 1c is sequentially reflected by the four reflecting mirrors 5, radiated inside the diaphragm 1c in a zigzag manner, and finally absorbed by the beam damper 6. ing. At this time, the width of the passage of the exhaust gas in the X direction of the throttle portion 1c is set to be substantially the same as or slightly smaller than the width of the laser beam L, whereby the exhaust duct 1 is divided into five exhaust ducts. It is closed five times by CO ₂ laser light. Therefore, the exhaust gas flowing through the throttle portion 1c flows through a total of five laser beams L. Although not shown, each of the reflection mirrors 5 and the beam dampers 6 can be cooled by a cooling medium such as water.

Next, since the exhaust gas generally contains substances such as ash and tar generated during incineration, it is necessary to protect the reflection mirror 5 and the beam damper 6 therefrom. Therefore, as shown in FIG.
In addition, air passages 7 are formed at both sides of the passage of the laser beam L and adjacent to the respective reflection mirrors 5, and the injection holes 7a are opposed to the respective air passages 7 and slightly toward the exhaust duct 1. Is formed. Therefore, the injection hole 7
The dry air injected into the passage of the laser light L from the portion a forms an air curtain that blocks the passage of the laser light L at that portion, thereby preventing the exhaust gas from coming into contact with the reflection mirror 5. Although not shown, an air curtain is similarly formed at a connection portion between the block 2 and the tube 4 so that the exhaust gas does not enter the tube 4.

In the above configuration, CO 2_Two Laser oscillator
3 to CO_Two Exhaust duct while emitting laser light L
1 through the exhaust gas, the exhaust gas
As described above, when flowing through the narrowed portion 1c of
The laser beam L flows through the five laser beams L. Then,
In general, a large amount of CO_Two Contains molecules
And CO by laser light L_Two Molecules are instantly heated
Become like That is, CO_Two Laser is CO_Two The molecule is d
Fired when energy drops from a high level to a low level
On the contrary, from low level to high level
Does going up absorb light of the same wavelength?
It is. And dioxin molecules are adsorbed on incineration ash etc.
Especially in the exhaust gas. _Two The amount of molecules is high
And CO_Two When molecules are heated, CO_Two The molecule is dioxy
CO2 by colliding with the molecule_Two Heat of molecules
The energy is transferred and the dioxin molecules are also effectively heated.
Will be. And generally, dioxin is about 850
If heated above ℃, it can be decomposed. Special
In this embodiment, the exhaust gas is multiplexed by laser light (5
Dioxin)
Can be decomposed into

FIG. 3 shows a second embodiment of the present invention. In this embodiment, the throttle portion 1c in the above embodiment is omitted, and the exhaust duct 11 has a simple rectangular parallelepiped shape. In this case, since the flow area of the exhaust gas becomes large, the plurality of reflecting mirrors 15 and the beam dampers 16 are arranged in a horizontal direction intersecting the flow direction of the exhaust gas, and the laser light L from the CO ₂ laser oscillator 13 is emitted. The light is reflected in the horizontal plane. Thereby, one cross section of the passage of the exhaust gas in the exhaust duct 11 is closed by the laser light L so that the exhaust gas always passes through the laser light L. Other configurations are the same as those of the first embodiment. Also in the present embodiment, dioxin can be decomposed by heating the exhaust gas with the laser beam L.

FIG. 4 shows a third embodiment of the present invention. In this embodiment, an air passage 27 is formed only on one side of the passage of the laser beam L provided in the block 22.
From the nozzle hole 27a into the passage of the laser beam L. On the other side of the path of the laser beam L, a recovery path 28 for recovering the dry air injected from the injection hole 27a is formed. The dry air and the exhaust gas recovered in the recovery path 28 are
The laser beam L can be supplied to the upstream side of the exhaust duct 21 via a passage (not shown), that is, to the upstream side of the irradiation position of the laser beam L. With such a configuration,
An air curtain can be formed by the dry air injected from the injection hole 27a, and the exhaust gas can prevent the exhaust gas from coming into contact with the reflection mirror 25.

Although not shown, a plurality of CO ₂ laser oscillators can be provided. The CO ₂ laser oscillator may be provided immediately downstream of the incinerator or downstream of a dust collector provided downstream of the incinerator. Although both may be provided, since the exhaust gas has a high temperature immediately downstream of the incinerator, it is more efficient to provide the exhaust gas in this portion. In the above embodiment, the decomposition of dioxin has been described, but the present invention is not limited to this, and is effective for decomposing other harmful substances such as PCB and chlorofluorocarbon.

[0013]

As described above, according to the present invention, CO ₂ molecules contained in exhaust gas can be extremely efficiently heated by a CO ₂ laser beam, so that harmful substances such as dioxin can be decomposed at the decomposition temperature. Thus, the effect that heating can be performed efficiently is obtained.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a first embodiment of the present invention.

FIG. 2 is an enlarged sectional view of a main part of FIG.

FIG. 3 is a perspective view showing a second embodiment of the present invention.

FIG. 4 is a sectional view of a main part showing a third embodiment of the present invention.

[Explanation of symbols]

1, 11, 21 ... exhaust duct 1c ... throttle portion 2, 22 ... Block 3, 13 ... CO ₂ laser oscillator 5, 15, 25 ... reflecting mirror 7, 27 ... air passage 7a, 27a ... injection hole

Claims (6)

[Claims] An exhaust gas from an incinerator or the like is irradiated with CO ₂ laser light to heat the exhaust gas to a decomposition temperature of harmful substances such as dioxin to decompose harmful substances present in the exhaust gas. How to decompose harmful substances. Wherein an exhaust duct where the exhaust gas from the incinerator or the like flows, by irradiating CO ₂ laser beam in the exhaust duct, CO ₂ for closing the exhaust duct in the CO ₂ laser beam
An apparatus for decomposing harmful substances, comprising: a laser oscillator. 3. The exhaust duct according to claim 1, wherein the exhaust duct includes a throttle portion having a reduced flow path area for the exhaust gas, and the width of the throttle portion is substantially equal to or smaller than the width of the CO ₂ laser beam. The apparatus for decomposing harmful substances according to claim 2. 4. A plurality of reflection mirrors are provided in a throttle portion of the exhaust duct along a flow direction of exhaust gas, and a plurality of reflection mirrors are provided.
CO ₂ laser light from the O ₂ laser oscillator is reflected by the reflection mirror, the device for decomposing harmful substances according to claim 3, characterized in that closing the multiple exhaust ducts by a plurality of CO ₂ laser light . 5. A plurality of reflecting mirrors are provided in said exhaust duct in a direction intersecting with a flow direction of exhaust gas,
The CO ₂ laser beam from the O ₂ laser oscillator is reflected by each reflection mirror, and a cross section of the exhaust duct is closed by a plurality of CO ₂ laser beams. Disassembly device. 6. An apparatus for decomposing harmful substances according to claim 4, wherein an air injection hole for forming an air curtain is provided near said reflection mirror.