JP2769964B2 - Incineration method and apparatus for chlorine-containing waste - Google Patents

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 efficiently incinerating waste containing chlorine compounds such as municipal solid waste in a fluidized bed incinerator.

[0002]

2. Description of the Related Art In recent years, the proportion of plastics in refuse has been increasing, and therefore, fluidized bed refuse incinerators more suitable for burning plastics than stoker furnaces and the like have attracted attention. In a conventional fluidized bed incinerator,
Hydrogen chloride (HCl) is generated due to combustion of chlorine-based plastics and the like contained in garbage, and corrodes boiler tubes and the like. To remove this hydrogen chloride, quicklime (CaO) and slaked lime (Ca (O
H) ₂ ) is sprayed to form calcium chloride (CaCl ₂ ), and this CaCl ₂ is generally collected by a filter (for example, see Japanese Patent Publication No. 60-25179). It is also well known to use limestone (CaCO ₃ ) as a desalting agent. Note that Ca (O
H) ₂ and CaCO ₃ are thermally decomposed into CaO when introduced into the furnace.

FIG. 4 shows an example of a conventional fluidized bed refuse incinerator. The fluidized-bed refuse incinerator 10 includes a fluidized bed 12
And reacting it with hydrogen chloride generated in the fluidized bed 12 as a part or all of the fluidized substance (fluidized medium), and extracting it as chlorides from the fluidized bed 12. 1
4 is an air dispersion plate, 15 is a wind box, 16 is a discharge pipe for extracting fluid substances, ash, chloride, and incombustible substances, 18 is a free board, 19 is a classifier such as a sieve, 21 is a heat recovery unit, 23 Is a combustion part.

In the incinerator shown in FIG. 4, as a desalting agent, an oxide or carbonate of an alkali metal (Na, K, Li, etc.) or an oxide or carbonate of an alkaline earth metal is used. Generally, a compound of an alkaline earth metal, C
aCO ₃ , CaO, and Ca (OH) ₂ are used.
The optimal reaction temperature for desalting with a Ca compound (desalting agent) is
The temperature is 450 to 650 ° C., and the waste is partially burned (gasified) in the fluidized bed 12.

[0005]

The partial combustion of the waste in the fluidized bed 12 is performed at 450 to 650 ° C., and a Ca compound, for example, CaO is supplied to the fluidized bed 12 to desalt HCl. The gas generated by the partial combustion is completely combusted by the secondary air in the combustion section 23 above the free board 18. The temperature at this time is 800 to 1000 ° C. CaO
From particles (generally a particle size of about 0.5 to 3 mm)
Calcium chloride (CaCl ₂ ) is produced by desalting of l. However, due to the fluidization, this CaCl ₂ is pulverized into smaller particles and scattered upward, and 800 to 10
When entering the combustion section 23 at 00 ° C., CaCl ₂ is decomposed to H
Cl gas is regenerated. As described above, in the conventional method, HCl once removed by the Ca compound is converted into CaC
There is a problem that the decomposition occurs again due to the decomposition of l ₂ .

Further, the Ca compound particles are powdered into smaller particles by fluidization in the fluidized bed 12, and CaCl ₂
Before it becomes scattered and cannot be used effectively. Further, in order to remove the HCl gas, it was necessary to supply a Ca compound which is about 3 to 10 times as large as a theoretically necessary Ca compound. For this reason, it has been desired to reduce the amount of the supplied Ca compound. Further, the temperature of the fluidized bed 12 from which the HCl gas is removed has the most suitable temperature, and means for always controlling the temperature to the optimum temperature is required. This is because stable performance cannot be obtained when the temperature changes.

The present invention has been made in view of the above points, and an object of the present invention is to provide fine powder CaCl ₂ and fine powder CaCl _2.
Before the compounds enter the high-temperature combustion section, they are collected and collected, and the collected dust is returned to the fluidized bed to prevent re-generation of HCl, to effectively use the fine Ca compound, and Another object of the present invention is to provide a method and an apparatus capable of controlling the temperature of a fluidized bed within an optimum constant range.

[0008]

In order to achieve the above object, a method for incinerating chlorine-containing waste according to the present invention comprises:
Chlorine-containing waste is put into a fluidized bed furnace and partially burned in a reducing atmosphere
At the same time as burning and gasifying, the generated hydrogen chloride is reacted with a desalting agent to form chloride, and then the gasified product gas
After separating and removing dust containing chloride and fine powder desalinating agent, the product gas from which chloride has been removed is introduced into the secondary combustion furnace.
And Rutotomoni is completely combusted in an oxidizing atmosphere, the recovered non-anti
The dust containing the fine desalting agent response is circulated to the fluidized-bed furnace
And reused as a desalting agent .

The resulting small particles of CaCl ₂ are 800
When it enters the combustion section at ~ 1000 ° C, it is decomposed and HCl
Since it generates gas, it must not be removed before entering the combustion section. As a removing means, one or more cyclones, a collision type dust collector, or the like can be used. The desalinating agent removed before entering the combustion section is CaCl ₂
Since many unreacted things that are not turned into are included,
By returning to the fluidized bed, HCl can be further removed. For this reason, a desalting agent can be used effectively. In addition, by returning to the fluidized bed, HC
Since l can be removed, the supply amount of the desalting agent can be reduced.

In the above method, the unreacted fine particles circulating
Cools dust containing powder desalinating agent to reduce fluidized bed temperature to desalination
It is preferable to control to a suitable temperature . Further, by adjusting the cooling circulation amount of dust, the fluidized bed temperature de
It is preferred to control to a certain range that is optimal for the salt . As described above, if a method is employed in which the desalinating agent collected by the means for removing dust such as the cyclone is cooled and then returned to the fluidized bed, the flow rate returned to the fluidized bed is changed (controlled). Thereby, the temperature of the fluidized bed can be controlled to be suitable for desalination . This ensures stable HCl removal
(Desalting) performance is achieved. Also in the above method
And mix the desalinating agent with the garbage and supply it to the fluidized bed furnace,
It is preferable to increase the rate.

The chlorine-containing waste incineration apparatus of the present invention gasifies the supplied chlorine-containing waste in a reducing atmosphere, and reacts the generated hydrogen chloride with a desalinating agent to form a partial combustion fluid. The gas outlet of the bed furnace and the gas inlet of the secondary combustion furnace that incinerate the gas generated in the partial combustion fluidized bed furnace in an oxidizing atmosphere are connected via a dust collector. A fluidized bed furnace is connected via a collected dust circulation line.

[0012] In the above apparatus, it is preferable to provide a dust cooler in the collected dust circulation line. Further, it is preferable that the temperature of the fluidized bed of the partial combustion fluidized bed furnace is controlled by the amount of circulating dust.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below in detail with reference to the drawings. However, the shapes of the components described in this embodiment, the relative arrangement thereof, and the like are not intended to limit the scope of the present invention to them only, unless otherwise specified, and are merely illustrative examples. It's just Embodiment 1 As shown in FIG. 1, the apparatus of this embodiment includes a gas outlet 72 of a partial combustion fluidized bed furnace 70 and a secondary combustion furnace for incinerating gas generated in the partial combustion fluidized bed furnace 70 in an oxidizing atmosphere. The gas inlet 76 is connected via a dust collector 60 such as a cyclone or a collision type dust collector. Further, the lower part of the dust collector 60 and the partial combustion fluidized bed furnace 70 are circulated for collected dust. It is constructed by connecting via a line 78.

A dust cooler 80 is provided in the recovered dust circulation line 78 so that all or a part of the cooled dust is returned to the partial combustion fluidized bed furnace 70. The fluidized bed 12 of the partial combustion fluidized bed furnace 70 is 450
~ 650 ° C and the primary air ratio is 0.15 ~
0.5 reducing atmosphere. The bed temperature is controlled by changing this air ratio. Although not shown, the bed temperature can be controlled by circulating exhaust gas and / or adding water.

A heat recovery unit 82 is provided in the secondary combustion furnace 74, and the generated gas introduced into the secondary combustion furnace 74 is mixed with secondary air and completely burns at a high temperature of 800 to 1000 ° C.
The secondary combustion furnace 74 has a desalinating agent (eg, CaCO ₃ ).
The CaCO ₃ is thermally decomposed at 800 to 1000 ° C. into CaO, falls into the dust collector 60, is collected, and is supplied to the partial combustion fluidized bed furnace 70. Although an upward furnace is shown as the secondary combustion furnace 74 in FIG. 1, a downward furnace may be used. Further, it is preferable to have a water cooling wall structure.

Embodiment 2 As shown in FIG. 2, the apparatus of this embodiment supplies a desalinating agent to a partial combustion fluidized bed furnace 70, and a method in which a desalinating agent charging means 84 is provided directly in the furnace 70. , A method of supplying a desalinating agent to the dust cooler 80, a method of supplying the desalinating agent to the fluidized material circulation line 81, or a method of mixing and supplying the same with refuse. Other configurations are the same as those in the first embodiment. Among them, when the desalinating agent is mixed with the refuse and supplied, it is convenient to remove HCl generated simultaneously with the combustion of the refuse, and the removal rate of HCl is highest.

Embodiment 3 In the apparatus of this embodiment, as shown in FIG. 3, a temperature detector 86 is provided in the fluidized bed 12, while a control valve 88 is provided in a cooled collected dust circulation line 78. The detector 86 and the control valve 88 are connected via a control device 90 so that the temperature of the fluidized bed 12 is controlled within a certain temperature range by changing the circulation amount of the cooled dust. . Reference numeral 92 denotes a dust extraction line for extracting excess dust when it is generated. Other configurations are the same as those of the first or second embodiment.

[0018]

As described above, the present invention has the following advantages. (1) Generated by desalination of partial combustion gas in a fluidized bed furnace
Since chlorides formed is recovered as part of the dust, the two
HCl gas is re-generated by the decomposition of the chloride in the next combustion furnace
And the corrosion of equipment such as a boiler tube in the downstream side is greatly reduced, and heat can be recovered with high efficiency. In addition, a desalinating agent is supplied in a fluidized bed furnace.
Since returning Te collected dust from desalted portion combustion gas into the fluidized bed furnace <br/>, it is possible to reuse the desalting agent unreacted fines in collecting dust, the amount of desalting agents Can be reduced. (2) When controlling the amount of cooling the separated dust containing the unreacted fine powder desalinating agent and the like to keep the fluidized bed temperature constant, the fluidized bed temperature is adjusted to a temperature suitable for desalination. Therefore, the amount of desalting agent used can be further reduced, which is extremely economical. Further, since the fluidized bed temperature becomes constant, stable desalination performance can be achieved. (3) A place where a desalinating agent is mixed with waste and supplied to a fluidized bed furnace
If it is, remove the HCl generated at the same time as the twisting of the waste
And the efficiency of removing (desalting) HCl is further improved.
It becomes.

[Brief description of the drawings]

FIG. 1 is an elevational view showing one embodiment of the chlorine-containing waste incinerator of the present invention.

FIG. 2 is an elevational view showing another embodiment of the chlorine-containing waste incinerator of the present invention.

FIG. 3 is an elevational view showing still another embodiment of the chlorine-containing waste incinerator of the present invention.

FIG. 4 is an elevational view showing an example of a conventional fluidized bed refuse incinerator.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Fluidized bed refuse incinerator 12 Fluidized bed 23 Combustion part 60 Dust collector 70 Partial combustion fluidized bed furnace 72 Gas outlet 74 Secondary combustion furnace 76 Gas inlet 78 Collected dust circulation line 80 Dust cooler 84 Desalting agent charging means 86 Temperature Detector 88 Control valve 90 Control device

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-5-141636 (JP, A) JP-A-60-96823 (JP, A) JP-A-56-100891 (JP, A) 25179 (JP, B2) (58) Field surveyed (Int. Cl. ⁶ , DB name) F23G 5/027 ZAB B01D 53/68 F23G 5/02 ZAB

Claims (7)

(57) [Claims] Claims 1. A chlorine-containing waste is charged into a fluidized-bed furnace and partially burned in a reducing atmosphere to gasify, and the generated hydrogen chloride is reacted with a desalting agent to form a chloride. Dust containing chloride and fine powder desalinating agent
After the separated and removed, the product gas chloride is removed two
Chlorine-containing, characterized in that the recycled and introduced into the next combustion furnace Rutotomoni is completely combusted in an oxidizing atmosphere, and the dust containing fine desalting agent of recovered unreacted circulated to the fluidized-bed furnace as a dechlorinating agent How to incinerate waste. 2. The method according to claim 1, wherein the circulating dust containing the unreacted fine powder desalinating agent is cooled to control the temperature of the fluidized bed to a temperature suitable for desalination. Item 4. The method for incinerating chlorine-containing waste according to Item 1. 3. The method for incinerating chlorine-containing waste according to claim 2, wherein the temperature of the fluidized bed is controlled within a certain range suitable for desalination by adjusting the amount of circulating dust that has been cooled. 4. A desalinating agent is mixed with refuse and supplied to a fluidized bed furnace.
And incineration method according to claim 1, 2 or 3 chlorine-containing waste wherein Rukoto enhance desalting efficiency. 5. A gas outlet of a partially-combustion fluidized-bed furnace, which gasifies the supplied chlorine-containing waste in a reducing atmosphere and reacts generated hydrogen chloride with a desalting agent to form chloride.
A gas inlet of a secondary combustion furnace that incinerates the generated gas of this partial combustion fluidized bed furnace in an oxidizing atmosphere is connected via a dust collector,
An incinerator for chlorine-containing waste, wherein the lower part of the dust collector and the partial combustion fluidized bed furnace are connected via a collected dust circulation line. 6. The incinerator for chlorine-containing waste according to claim 5, wherein a dust cooler is provided in the recovered dust circulation line. 7. The incinerator for chlorine-containing waste according to claim 6, wherein the temperature of the fluidized bed of the partial combustion fluidized bed furnace is controlled by the amount of circulating dust.