JP2004223349A - Method and apparatus for treating fly ash of trash incinerator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method and an apparatus for treating fly ash or the like in the exhaust gas discharged from a trash incinerator, in which the calcium chloride-containing dust and ash collected by a bag filter is easily and surely treated. <P>SOLUTION: The dust component in the exhaust gas discharged from the trash incinerator is collected by a first bag filter. Slaked lime is introduced into the dust component-removed exhaust gas so that the introduced slaked lime is reacted with hydrogen chloride in the exhaust gas to produce calcium chloride. The produced calcium chloride in the exhaust gas is collected by a second bag filter. Dioxins are decomposed by a catalyst in the second bag filter at the same time. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a fly ash treatment method and a fly ash treatment device for a waste incinerator for treating fly ash and the like in exhaust gas discharged from a waste incinerator.
[0002]
[Prior art]
Generally, flue gas discharged from a refuse incinerator contains fly ash (hereinafter referred to as dust), hydrogen chloride, dioxins, and the like, and it is desired to effectively remove these components. .
Conventionally, as an apparatus for efficiently removing dust, hydrogen chloride, dioxins, and the like, for example, an apparatus disclosed in Japanese Patent Application Laid-Open No. H10-202062 is known.
[0003]
FIG. 2 shows an example of a conventional method of treating fly ash in a refuse incinerator. In this method, activated carbon and slaked lime are blown into exhaust gas discharged from the refuse incinerator 1.
The blown slaked lime reacts with hydrogen chloride in the exhaust gas to form calcium chloride and water, and the activated carbon adsorbs dioxins.
Then, dust components, calcium chloride, and activated carbon are collected by the bag filter 2 using a normal filter cloth, and the exhaust gas is discharged from the chimney 4 to the atmosphere via the induction blower 3.
[0004]
However, in such a fly ash treatment method, since activated carbon is used to adsorb dioxins, there is a problem that the amount of ash solidification increases by the amount of activated carbon.
Therefore, recently, a fly ash treatment method has been developed in which a catalyst for decomposing dioxins is carried on or woven into a filter cloth of a bag filter.
[0005]
In this method, as shown in FIG. 3, only slaked lime is blown into the exhaust gas discharged from the refuse incinerator 1.
The injected slaked lime reacts with hydrogen chloride in the exhaust gas to form calcium chloride and water.
[0006]
Then, trace amounts of dust components and calcium chloride are collected by the bag filter 5 using the catalyst filter cloth, and at the same time, the dioxins are decomposed by the catalyst filter cloth.
Therefore, it is not necessary to use activated carbon, and it is possible to eliminate the increase in the amount of ash solidified by the amount of activated carbon, and at the time of performing the ash solidification of the dust ash mixed with activated carbon, the solidified chemical is consumed by the activated carbon. This eliminates the need for a large amount of solidifying agent to ensure performance.
[0007]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 10-202062
[Problems to be solved by the invention]
However, in such a conventional fly ash treatment method for a refuse incinerator, the dust ash collected by the bag filters 2 and 5 is melted together with the incineration main ash of the refuse incinerator 1 in the ash melting facility 6. Then, since the dust ash collected by the bag filters 2 and 5 contains a relatively large amount of calcium chloride, high-concentration chlorine moves to the exhaust gas side again, and the exhaust gas treatment is required again. There is a problem that a large amount of slaked lime is required in the process.
[0009]
Further, when the refuse incinerator 1 is an intermittent operation furnace, the dust collected in the bag filters 2 and 5 contains deliquescent calcium chloride. However, there is a problem that the exhaust gas cannot be passed through the bypass pipe 7 and it is necessary to switch to the bypass pipe 7.
The present invention has been made to solve such a conventional problem, and a fly ash treatment method for a refuse incinerator capable of easily and surely treating dust ash containing calcium chloride collected by a bag filter. And a fly ash treatment apparatus.
[0010]
[Means for Solving the Problems]
The fly ash treatment method of the refuse incinerator according to claim 1, after collecting dust components in the exhaust gas discharged from the refuse incinerator with the first bag filter, blowing slaked lime into the exhaust gas from which the dust components have been removed, It reacts with hydrogen chloride in the exhaust gas to generate calcium chloride, and thereafter, the second bag filter collects the calcium chloride in the exhaust gas. At the same time, the catalyst of the second bag filter decomposes dioxins. Is performed.
[0011]
The method for treating fly ash of a refuse incinerator according to claim 2 is the method for treating fly ash of a refuse incinerator according to claim 1, wherein the dust collected by the second bag filter is collected using a chelating agent. It is characterized by ash solidification.
A method for treating fly ash of a refuse incinerator according to claim 3 is the method for treating fly ash for a refuse incinerator according to claim 1 or claim 2, wherein the dust ash collected by the first bag filter is removed by the method. It is characterized by being melted together with the incineration ash of refuse incinerators.
[0012]
The method for treating fly ash of a waste incinerator according to claim 4 is the method for treating fly ash of a waste incinerator according to any one of claims 1 to 3, wherein the waste incineration is performed during an intermittent operation of the waste incinerator. The exhaust gas discharged from the furnace is operated without bypassing the first bag filter.
According to a fifth aspect of the present invention, there is provided a fly ash treatment apparatus for a refuse incinerator, wherein a first bag filter for collecting dust components in exhaust gas discharged from the refuse incinerator and dust components are removed by the first bag filter. Slaked lime supply means for blowing slaked lime into the exhaust gas, and calcium chloride generated by the reaction between slaked lime supplied from the slaked lime supply means and hydrogen chloride in the exhaust gas are collected, and at the same time, dioxins are decomposed by a catalyst. And two bag filters.
[0013]
(Action)
In the fly ash treatment method for a refuse incinerator according to the first aspect, first, dust components in the exhaust gas discharged from the refuse incinerator are collected by the first bag filter.
[0014]
Next, slaked lime is blown into the exhaust gas from which the dust component has been removed, and is reacted with hydrogen chloride in the exhaust gas to generate calcium chloride.
Then, the calcium chloride in the exhaust gas is collected by the second bag filter, and at the same time, the dioxins are decomposed by the catalyst of the second bag filter.
Therefore, the dust ash of the second bag filter is mainly composed of calcium chloride and unreacted slaked lime, and the dust ash of the second bag filter hardly contains dust components. Since it is a small amount, dust collection ash can be easily and reliably treated.
[0015]
In the fly ash treatment method of the refuse incinerator according to the second aspect, the dust ash collected by the second bag filter is ash-solidified using a chelating agent, and is disposed of in a landfill.
In the method for treating fly ash of a refuse incinerator according to the third aspect, the dust ash collected by the first bag filter is melted together with the main ash of the refuse incinerator.
That is, the dust ash collected by the first bag filter is only a dust component in the exhaust gas, and has a very low chloride concentration, so that it can be melted together with the incineration main ash of the refuse incinerator. Become.
[0016]
In the method for treating fly ash of a refuse incinerator according to claim 4, during the intermittent operation of the refuse incinerator, the exhaust gas discharged from the refuse incinerator is operated without bypassing the first bag filter, and the first The dust component is captured by the filter.
In other words, in general, when exhaust gas is flowed at a low temperature due to a pause in a state where calcium chloride having deliquescent is mixed with dust, dust adheres to the bag filter due to the deliquescence phenomenon of calcium chloride, and the dust is washed off from the bag filter. become unable.
[0017]
However, since only dust components having no deliquescence are collected in the first bag filter, it is possible to flow exhaust gas to the first bag filter at a low temperature due to suspension.
In the fly ash treatment device for a refuse incinerator according to claim 5, dust components in the exhaust gas discharged from the refuse incinerator are collected by the first bag filter.
[0018]
Then, slaked lime is blown into the exhaust gas from which dust components have been removed by the slaked lime supply means, and the slaked lime reacts with hydrogen chloride in the exhaust gas to generate calcium chloride.
Then, the calcium chloride in the exhaust gas is collected by the second bag filter, and at the same time, the dioxins are decomposed by the catalyst of the second bag filter.
Therefore, the dust ash of the second bag filter is mainly composed of calcium chloride and unreacted slaked lime, and the dust ash of the second bag filter hardly contains dust components. Since it is a small amount, dust collection ash can be easily and reliably treated.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows an embodiment of a fly ash treatment apparatus for a refuse incinerator according to the present invention.
In the figure, reference numeral 11 indicates a refuse incinerator that burns refuse.
Exhaust gas from the refuse incinerator 11 is guided to a first bag filter 19 via a gas cooler 13, a white smoke prevention air preheater 15, and an air preheater 17.
[0020]
The first bag filter 19 is made of a normal filter cloth and captures dust components in exhaust gas.
Downstream of the first bag filter 19, slaked lime supply means 21 for blowing slaked lime Ca (OH) ₂ into exhaust gas from which dust components have been removed by the first bag filter 19 is arranged.
[0021]
The slaked lime supplied from the slaked lime supply means 21 reacts with hydrogen chloride HCl in the exhaust gas as follows to generate calcium chloride CaCl ₂ .
Ca (OH) ₂ + 2HCl → CaCl ₂ + 2H ₂ O
Note that hydrogen chloride in the exhaust gas is generated by burning chlorine-based plastic products and the like.
[0022]
A second bag filter 23 is arranged downstream of the slaked lime supply means 21.
The second bag filter 23 captures calcium chloride generated by the reaction between slaked lime and hydrogen chloride, and simultaneously decomposes dioxins with a catalyst.
That is, the second bag filter 23 is formed by supporting or weaving a decomposition catalyst for dioxins such as titanium and vanadium on a filter cloth.
[0023]
In addition, as a catalyst filter system provided with such a dioxin decomposition catalyst, for example, GORE (registered trademark) catalyst filter system of Japan Gore-Tech Co., Ltd. is known.
A bypass pipe 25 is connected to bypass the second bag filter 23.
An electromagnetic on-off valve 27 is arranged in the second bypass line 25, and electromagnetic on-off valves 29 and 31 are arranged on the inlet side and the outlet side of the second bag filter 23.
[0024]
The downstream side of the second bag filter 23 is connected to a chimney 35 via an induction blower 33.
In the fly ash treatment device described above, the exhaust gas having a dust amount of 2 g to 4 g / m ³ N is supplied from the air preheater 17 to the first bag filter 19 at, for example, a temperature of 200 ° C.
Then, dust components are removed in the first bag filter 19, the amount of dust in the exhaust gas is reduced to 0.01 g to 0.04 g / m ³ N, and slaked lime from the slaked lime supply means 21 is blown into the exhaust gas. It is.
[0025]
By blowing the slaked lime, hydrogen chloride in the exhaust gas becomes calcium chloride, and the calcium chloride is collected by the second bag filter 23, and at the same time, dioxins are decomposed.
Then, on the downstream side of the second bag filter 23, the dust amount of the exhaust gas is reduced to 0.1 mg / m ³ N or less, and the exhaust gas is discharged into the atmosphere from the chimney 35 through the induction blower 33.
[0026]
On the other hand, the dust ash collected by the first bag filter 19 is melted together with the main ash of the incinerator 11 in the ash melting facility 37 of the incinerator 11.
Further, the dust ash collected by the second bag filter 23 is ash-solidified in the ash-solidifying facility 39 using a chelating agent, and is processed and disposed of in a landfill.
In the fly ash treatment method for the refuse incinerator described above, the first bag filter 19 collects dust components in the exhaust gas discharged from the refuse incinerator 11, and the second bag filter 23 captures calcium chloride. Since the dust is collected, the dust ash of the second bag filter 23 hardly contains any dust component, so that the dust becomes relatively small, and contains the calcium chloride collected by the second bag filter 23. Dust ash can be easily and reliably treated.
[0027]
That is, the main components of the dust ash of the second bag filter 23 are calcium chloride and unreacted slaked lime, and the dust ash of the second bag filter 23 contains almost no dust component. Since it is a relatively small amount, dust collection ash can be easily and reliably treated.
Further, in the fly ash treatment method of the refuse incinerator described above, the collected ash collected by the second bag filter 23 is ash-solidified in the ash-solidifying facility 39 by using a chelating agent, so that it is landfilled. Etc. can be easily performed.
[0028]
Further, in the above-described fly ash treatment method for a refuse incinerator, the dust ash collected by the first bag filter 19 is melted together with the incineration main ash of the refuse incinerator 11 in the ash melting facility 37. As a result, mixed ash can be easily and reliably processed.
That is, the dust ash collected by the first bag filter 19 is only a dust component in the exhaust gas and has a very low chloride concentration, so that it can be melted together with the incineration main ash of the refuse incinerator 11. Will be possible.
[0029]
Further, in the above-described fly ash treatment method for the waste incinerator, the exhaust gas discharged from the waste incinerator 11 can be operated without bypassing the first bag filter 19 during the intermittent operation of the waste incinerator 11. In addition, it is possible to reliably prevent dust components from being discharged from the chimney.
[0030]
That is, when the exhaust gas is flown in a state where the dust collected in the bag filter is mixed with deliquescent calcium chloride at a low temperature due to the shutdown of the refuse incinerator 11, the dust adheres to the bag filter due to the deliquescent phenomenon of calcium chloride. However, the payment from the bag filter cannot be performed.
However, in this embodiment, since only dust components having no deliquescence are collected in the first bag filter 19, it is possible to flow exhaust gas to the first bag filter 19 at a low temperature due to suspension. Become.
[0031]
In this embodiment, since calcium chloride is trapped in the second bag filter 23, the electromagnetic on-off valves 29, 31 on the inlet side and the outlet side of the second bag filter 23 at the time of low temperature due to suspension. Is closed, the electromagnetic on-off valve 27 of the bypass pipe 25 is opened, and the exhaust gas from the first bag filter 19 flows to the induction blower 33 bypassing the second bag filter 23.
[0032]
In the fly ash treatment device of the refuse incinerator 11 described above, the dust component in the exhaust gas discharged from the refuse incinerator 11 is collected by the first bag filter 19, and the chlorine is collected by the second bag filter 23. Since the calcium is collected, the dust ash of the second bag filter 23 hardly contains any dust component and becomes relatively small, and the calcium ash collected by the second bag filter 23 is removed. The collected dust ash can be easily and reliably treated.
[0033]
【The invention's effect】
As described above, in the fly ash treatment method for a refuse incinerator according to claim 1, dust components in the exhaust gas discharged from the refuse incinerator are collected by the first bag filter, and are collected by the second bag filter. , Calcium chloride is collected, so that the dust ash of the second bag filter hardly contains any dust components, so that the amount is relatively small, and the chloride ash collected by the second bag filter is reduced. Dust ash containing calcium can be easily and reliably treated.
[0034]
In the fly ash treatment method for a refuse incinerator according to the second aspect, the dust ash collected by the second bag filter is solidified using a chelating agent, so that disposal such as landfill can be easily performed. be able to.
In the method for treating fly ash of a refuse incinerator according to the third aspect, the dust ash collected by the first bag filter is melted together with the main ash of the refuse incinerator, so that a relatively large amount of dust is generated. The components can be processed easily and reliably.
[0035]
According to the method for treating fly ash of a refuse incinerator according to the fourth aspect, during the intermittent operation of the refuse incinerator, the exhaust gas discharged from the refuse incinerator is operated without bypassing the first bag filter. Can be reliably prevented from being discharged from the chimney.
In the fly ash treatment device for a refuse incinerator according to claim 5, dust components in the exhaust gas discharged from the refuse incinerator are collected by the first bag filter, and calcium chloride is collected by the second bag filter. Therefore, the dust collection ash of the second bag filter hardly contains any dust component, so that the dust collection ash containing the calcium chloride captured by the second bag filter becomes relatively small. , Can be processed reliably.
[Brief description of the drawings]
FIG. 1 is a piping system diagram showing an embodiment of a fly ash treatment device for a refuse incinerator according to the present invention.
FIG. 2 is a piping diagram showing an example of a conventional fly ash treatment method for a refuse incinerator.
FIG. 3 is a piping diagram showing another example of a conventional fly ash treatment method for a refuse incinerator.
[Explanation of symbols]
11 Waste incinerator 19 First bag filter 21 Slaked lime supply means 23 Second bag filter 37 Ash melting facility 39 Ash solidification facility

Claims (5)

After collecting the dust component in the exhaust gas discharged from the refuse incinerator with the first bag filter, slaked lime is blown into the exhaust gas from which the dust component has been removed, and reacts with the hydrogen chloride in the exhaust gas to generate calcium chloride. After that, the calcium chloride in the exhaust gas is collected by a second bag filter, and at the same time, the dioxins are decomposed by the catalyst of the second bag filter. Method. In the method for treating fly ash of a refuse incinerator according to claim 1,
A fly ash treatment method for a refuse incinerator, wherein the collected ash collected by the second bag filter is solidified using a chelating agent. In the method for treating fly ash of a refuse incinerator according to claim 1 or claim 2,
A fly ash treatment method for a refuse incinerator, wherein the dust ash collected by the first bag filter is melted together with the incineration main ash of the refuse incinerator. The fly ash treatment method for a refuse incinerator according to any one of claims 1 to 3,
A fly ash treatment method for a refuse incinerator, wherein exhaust gas discharged from the refuse incinerator is operated without bypassing the first bag filter during the intermittent operation of the refuse incinerator. A first bag filter for collecting dust components in exhaust gas discharged from the refuse incinerator,
Slaked lime supply means for blowing slaked lime into exhaust gas from which dust components have been removed by the first bag filter;
A second bag filter that collects calcium chloride generated by a reaction between slaked lime supplied from the slaked lime supply unit and hydrogen chloride in exhaust gas, and at the same time, decomposes dioxins with a catalyst;
A fly ash treatment device for a refuse incinerator, comprising:

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