JP2002143644A - Method for treating exhaust gas including dioxins - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for decomposing and removing dioxins stably and efficiently from exhaust gas including dioxins. SOLUTION: In this treating method of exhaust gas, decomposition and removal of dioxins are performed by allowing exhaust gas including dioxins to contact with a catalyst, and further, it is a feature of this method that the exhaust gas is brought into contact with the catalyst while being subjected to vibrations by means of sound waves.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a method for treating exhaust gas containing dioxins. More specifically, the present invention can stably and highly efficiently treat exhaust gas containing dioxins.

[0002]

2. Description of the Related Art Dioxins are contained in exhaust gas generated from incineration facilities for treating industrial waste and municipal waste. Since these dioxins are listed as endocrine disrupters, it is an important task to remove them from exhaust gas with high efficiency.

Conventionally, many methods for treating exhaust gas containing dioxins using a catalyst have been known. For example, Japanese Patent Application Laid-Open No. H10-235191 proposes a treatment method using a titanium-based catalyst or the like. However, dioxins are substances that can be newly resynthesized in the presence of dust on the catalyst and in the catalytic reactor, so how to control this synthesis reaction removes dioxins with high efficiency. This is a very important issue.

Generally, a soot blow device using high-pressure air or high-pressure steam is used as a method for removing dust adhering to a catalyst. However, since a large number of soot blow pipes are installed, the catalytic reactor has a complicated structure, and dust is deposited on the installed soot blow pipes, which may be a factor of generating new dioxins. Further, in the case of blowing using gas, one-sided flow of gas may occur, and a portion where dust is removed and a portion where dust is not removed may be generated. In some cases, dust may not be sufficiently removed.

[0005]

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for suppressing the generation of a new synthetic reaction portion of dioxins and stably and efficiently decomposing and removing dioxins.

[0006]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention provides a method for treating exhaust gas, which comprises contacting exhaust gas containing dioxins with a catalyst to decompose and remove dioxins in the exhaust gas. The exhaust gas and the catalyst are brought into contact with each other while applying vibration.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION The present inventors have compared with the case of using a soot blow device using high-pressure air or high-pressure steam,
The inventors have found that by contacting the exhaust gas with the catalyst while applying vibration by sound waves, the removal efficiency of dioxins is improved and the durability of the catalyst is also improved, and the present invention has been completed.

[0008] Although the reason for this is not clear, dust does not accumulate around the catalyst and the reactor in a certain range of sound pressure level generated by vibration by sound waves.
The effect of controlling the reaction of generating new dioxins from the halogen generated by the decomposition of dioxins by vibrations due to sound waves or inhibiting the reaction between halogens and organic components. It is considered that the adsorbed dioxins are desorbed and vaporized, so that they are easily oxidized and decomposed by a catalyst, and the dioxins removal efficiency is improved.

The exhaust gas to be treated in the present invention is:
Exhaust gas containing dioxins. Dioxins are defined as at least one of polyhalogenated dibenzodioxin, polyhalogenated dibenzofuran, and polyhalogenated biphenyl.

In the present invention, the amount of the catalyst is variously determined in correlation with the concentration of dioxins and the amount of exhaust gas.
^-1 (STP) is selected, preferably from 200 to 5
0000h ^-1 (STP). 100h ^-1 (STP)
If less, the reactor becomes too large and inefficient,
If it exceeds 100,000 h ⁻¹ (STP), the processing efficiency is reduced.

The present invention is to prevent the dust in the exhaust gas from adhering to the catalyst by vibrating the exhaust gas with a sound wave when the exhaust gas is brought into contact with the catalyst. Since a smaller amount is more suitable for dioxin treatment with a catalyst, it is preferable to remove dust in the exhaust gas prior to the catalyst treatment.

In general, dust is generated by incineration in exhaust gas generated from an incineration facility for treating waste. The generated dust is harmful in itself and is removed from the exhaust gas using various dust removing devices. As a dust removal method, a method of removing dust using a centrifugal dust collector such as a cyclone or a multi-cyclone, a method of removing dust using an electric dust collector, and a method of removing dust using a filter dust collector such as a bag filter or a ceramic filter. Method and the like.

[0013] The component of the dust contains a composition of 0.5 to 30% by weight as an alkali metal and / or 0.5 to 30% by weight as an alkaline earth metal and / or a halogen content of 20% by weight or less. Is what you do. In particular, when halogen is contained in the dust, dioxins are easily synthesized newly, and the treatment efficiency is greatly reduced. Therefore, the present invention requires that the halogen concentration in the dust be less than 20.
The effect is recognized when the content is less than 10% by weight, and particularly when the halogen concentration in the dust is 10% by weight or less. Examples of halogen include Cl and Br.

The treatment can be carried out regardless of the dust concentration in the exhaust gas. However, the present invention can be carried out without any problem if the concentration is 0.1 to 1000 mg / m ³ (standard state) which is usually contained in the exhaust gas. However, when the concentration of dust in the exhaust gas treated with the catalyst is high, the treatment efficiency is greatly reduced. Therefore, the present invention provides 200 mg /
The effect is recognized when dust of m ³ (standard state) or less is contained, and particularly when the dust contains 100 mg / m ³ (standard state) or less in the exhaust gas.

The exhaust gas containing such dust includes:
Industrial waste incinerators, municipal waste incinerators, electric furnaces for steelmaking,
Exhaust gas generated from a sintering furnace, a zinc recovery facility, an aluminum refining facility, an ash melting furnace, and the like can be given.

In the present invention, the exhaust gas and the catalyst are brought into contact with each other while being vibrated by a sound wave. The sound wave indicates both an audible frequency band and a non-audible frequency band.
The sound pressure level of the sound wave is preferably at least 130 dB (A characteristic) in the catalyst and the reactor.
More preferably, it is 35 dB or more. If it is lower than 130 dB, the force for vibrating the exhaust gas is insufficient, and a sufficient dust removing effect cannot be obtained, which is not preferable. The upper limit of the sound pressure level is not particularly limited, but is preferably in a range that can be tolerated in the working environment, and the limit is about 200 dB.

If the catalytic reactor becomes large and it is difficult for one sound generator to make the sound pressure level in the catalyst on which the sound wave acts and the reactor at 130 dB or more, a plurality of sound generators are arranged. By doing so, it is possible to superimpose and amplify the sound waves to make them 130 dB or more.
Also, since sound waves are reflected, diffused, amplified and resonated in the catalyst and the reactor, the sound pressure level in the catalyst and the reactor where the sound waves act must be higher than the sound pressure level of the sound wave generator itself. Is also possible.

The sound wave generating mechanism of the sound wave generating device may be of any type, and may be of any type, such as a type that causes the diaphragm to resonate and vibrate with a compressed gas and a type that generates electric sound waves. A-weighted sound pressure level is 1000H
The sound pressure level of the pure sound of z is defined as “phon”, which is used as the reference for the loudness level. The curve shows a sound pressure level corrected by a curve of 40 phon (minimum audible value).

As the catalyst according to the present invention, any catalyst can be used without any problem as long as it is a catalyst for treating dioxins. For example, Ti, Zr, Al, Si, P, V, Nb, T
a, Cr, Mo, W, Mn, Fe, Co, Ni, Cu,
It is a catalyst containing elements such as Ru, Pd, Pt, Ag, and Au, and is preferably Ti, Zr, Al, Si, V, M
a catalyst containing elements such as o, W, Mn, Fe, Ru, Pd, Pt, Ag, and Au, more preferably Ti,
It is a catalyst containing elements such as Si, V, Mo, W, Ru, Pd, and Pt.

The shape of the catalyst used in the present invention is as follows:
There is no particular limitation, and it can be used after being formed into a desired shape such as a honeycomb shape, a plate shape, a corrugated plate shape, a net shape, a columnar shape, and a cylindrical shape. Further, it is used by being supported on a carrier having a desired shape such as a honeycomb shape, a plate shape, a corrugated shape, a net shape, a columnar shape, and a cylindrical shape made of alumina, silica, cordierite, mullite, SiC, titania, stainless steel, or the like. However, a honeycomb shape having a small pressure loss in the catalyst layer and a high treatment efficiency is preferably used.

The operating temperature of the catalyst according to the present invention may be any temperature at which dioxins can be decomposed, preferably 130 to 450 ° C., more preferably 150 to 35 ° C.
0 ° C. If the temperature is lower than 130 ° C., the treatment efficiency decreases. If the temperature exceeds 450 ° C., the durability of the catalyst decreases.

In the present invention, dust in the exhaust gas is usually removed upstream of the catalyst. However, when dust is present downstream of the catalyst, the dust can be treated downstream of the catalyst.

[0023]

The present invention will be described in more detail with reference to the following Examples, but it should not be construed that the invention is limited thereto. (Example 1) Exhaust gas containing about 10 ng-TEQ / m ³ (standard state) of dioxins (the sum of polychlorinated dibenzodioxin and polychlorinated dibenzofuran; hereinafter referred to as DXN) whose dust concentration was adjusted by an electric dust collector. ,
While operating the sound wave generators installed at the inlet and outlet of the reactor at intervals of 20 minutes, they were passed through a titanium-based honeycomb catalyst to measure the DXN removal performance. The linear velocity inside the reactor is 2.0 m / s (standard state), the exhaust gas temperature is 230 ° C., the space velocity (STP) is 6000 h ⁻¹ , and the dust concentration is 180.
mg / m ³ (standard state), and the halogen concentration in the dust was 18%. The used sound wave generator is frequency 2
The operation was performed at 30 Hz and a sound pressure level of 137 dB (A characteristic).

The DXN decomposition rate was determined according to the following equation.

[0025]

Embedded image

The results are shown in Table 1. (Examples 2 to 7) In Example 1, the following conditions were used:
The DXN removal performance was measured under the same conditions as in Example 1 except that the dust concentration of the exhaust gas to be passed, the halogen concentration in the dust, and the sound pressure level of the sound wave generated from the sound wave generator were changed. The results are shown in Table 1. (Comparative Example 1) The DXN removal performance was measured under the same conditions as in Example 1 except that the sound wave generator was not operated and the dust of the catalyst was removed with a soot blower using high-pressure air. The results are shown in Table 1. (Example 8) Under the same conditions as in Example 1, 200 g of exhaust gas was
Gas was passed for 0 hours, and then the DXN removal performance was measured.
The results are shown in Table 1. (Comparative Example 2) Under the conditions of Comparative Example 1, 200 g of exhaust gas was introduced into the reactor.
Gas was passed for 0 hours, and then the DXN removal performance was measured.
The results are shown in Table 1.

[0027]

[Table 1]

[0028]

According to the present invention, dioxins in exhaust gas for a long period of time are stably decomposed and removed, and
Dioxins can be decomposed with high efficiency.

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Noboru Sugishima No. 992, Nishioki, Okihama-shi, Aboshi-ku, Himeji-shi, Hyogo F-term (reference) 4N048 AA11 BA31Y BA32Y BA34Y BA35Y BA36Y BA37Y BA38Y BA39Y BA41X BA44Y BA45Y BB01 BB02 BB03 BB05 BB07 BC01 BC04 CD03 CD05 EA03 4H006 AA02 AC13 AC26 BA05 BA09 BA10 BA12 BA14 BA16 BA19 BA23 BA25 BA26

Claims (1)

[Claims] An exhaust gas treatment method for decomposing and removing dioxins by bringing exhaust gas containing dioxins into contact with a catalyst, wherein the exhaust gas and the catalyst are brought into contact with each other while applying vibration by sound waves. Processing method.