JP3224021B2 - Combustion treatment method and combustion treatment device for refuse solid fuel suitable for solidification of combustion ash - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is suitable for solidifying combustion ash produced from waste such as municipal waste and industrial waste (hereinafter sometimes simply referred to as garbage). Refuse solid fuel (with RDF)
The present invention relates to a combustion treatment method and a combustion treatment device of Derived Fuel ) .

[0002]

2. Description of the Related Art Conventionally, refuse such as municipal refuse and industrial waste is pre-treated, for example, dried, sorted, crushed, and then slaked lime or quick lime is added to the refuse for solid waste (RD).
Methods for producing F) are known. Conventionally, when incinerating refuse, the primary combustion temperature in a stoker furnace is 500-7.
Waste incineration is performed at 00 ° C. and a freeboard temperature of 700 to 900 ° C. In a fluidized bed furnace, waste incineration is performed at a bed temperature of about 600 ° C. and a freeboard temperature of 700 to 900 ° C. Of the ash generated by refuse incineration, main ash is mainly disposed of in landfills, fly ash is solidified with cement,
Any treatment such as melting treatment, chelating treatment, and chemical treatment such as acid extraction is performed to make it harmless and landfilled as specially managed waste.

Japanese Unexamined Patent Publication No. Hei 5-296425 describes a waste melting furnace in which waste such as municipal waste incineration ash is uniformly and rapidly melted by a multi-frame burner composed of a plurality of flames. No. -3868 discloses ash melting in which air is supplied to incinerated ash such as municipal waste and industrial waste to burn unburned carbon in the incinerated ash, and the heat generated by the combustion is used to melt the incinerated ash. In the furnace, an ash melting furnace is described in which a shape of a fire plate is improved to enable stable and easy operation.

Japanese Patent Application Laid-Open No. 6-106153 discloses that a raw material containing incinerated ash such as refuse, cement, aggregate, and a water-absorbing polymer that has absorbed water is kneaded to form a paste.
The cement solidification method and cement solidified product of the incinerated ash to be molded are described, and the 31st Geotechnical Engineering Research Presentation (July 1996
Mon) Lectures, pp. 319 to 320, "Consideration on solidification of municipal incineration ash" contains special minerals such as calcium sulfoaluminate to suppress and harden the expansion of incineration ash. It describes a technology to add a small amount of citric acid to cement and solidify it by adding it to the incineration ash. Environmental Geotechnical Engineering Symposium (1994), Vol.1st, Vol.1st, pp.231-238, "General Waste Incineration" In the `` solidification of fly ash '', a technology is described that can be treated ash excellent in strength development, heavy metal containment effect and water resistance by adding fluidized bed coal ash and cement to incinerated fly ash and solidifying it. ing.

[0005]

In the above-mentioned conventional incineration ash melting treatment, a large amount of energy is consumed, so that the treatment cost is high. In the chemical treatment, the cost of chemicals such as chelating agents is high. Also in this case, the processing cost increases. Furthermore, landfill disposal at a managed landfill site as final disposal does not solve the tightness of the final disposal site. In addition, in the method of adding cement to incinerated ash to form a solid, it is necessary to add a large amount of cement, so that there is a problem that the processing cost is increased and the amount of the solid is increased.

In view of the above-mentioned points, the present invention has been made by paying attention to the fact that the same component as the cement compound is contained in the combustion ash (incineration ash). There was prepared the RDF suitable for solidification of the components adjusted to combustion ash added calcium oxide source material and a silica-alumina source material as an additive material during the RDF produced to a predetermined value, as this <br/> to provide a method and apparatus for combustion treatment of RDF produced. The combustion ash subjected to the combustion treatment is reformed and stabilized, and can be effectively used.

[0007]

Means for Solving the Problems There are the following types of cement compounds, all of which have hydraulic properties. _{C 2 S: 2CaO · SiO 2} C 3 S: 3CaO · SiO 2 C 3 A: 3CaO · Al 2 O 3 C 4 AF: 4CaO · Al 2 O 3 · Fe 2 O 3 cement during combustion ash by solid phase reaction In order to generate a compound, the following conditions are required. (1) The cement compound contained in the cement is Ca
It is composed of a combination of two or more of the four components O, Al ₂ O ₃ , SiO ₂ , and Fe ₂ O ₃ , and it is necessary that an appropriate amount of these four components be contained in the combustion ash. Incidentally, a chemical composition example of Portland cement is shown below. _{SiO 2: 22.0wt% Al 2 O} 3: 5.3wt% Fe 2 O 3: 3.0wt% CaO: 64.9wt% MgO: 1.3wt% SO 3: by 1.9 wt% (2) setting reaction The production process of the cement compound
It starts at about 800 ° C. and continues up to about 1450 ° C. In addition, ettringite (3C
The production of C ₃ A as a raw material of aO.Al ₂ O ₃ .3CaSO ₄ .32H ₂ O) starts at about 900 ° C. and is 1200
Since the heating is completed at about 100 ° C., in order to generate a cement compound in the combustion ash, the temperature is 800 ° C. or higher, preferably 90 ° C.
A temperature of 0 ° C. or higher and an appropriate residence time are required.

[0008] In order to satisfy these conditions, as the composition of the combustion ash to a predetermined value, materials and clay containing Ca limestone such as additive during RDF production (Fe ₂
(Including O ₃ )) and adjust the composition by adding a substance containing silica / alumina, and burn at 800 ° C. or higher, desirably 900 ° C. or higher, which is higher than the operating temperature of the incinerator up to now. The combustion ash is modified such that a cement compound is formed. As a result, the obtained modified combustion ash has hydraulic properties, and this modified combustion ash is used as a raw material for producing a solidified body by hydration and solidification. Since the process of producing the cement compound, particularly C ₂ S, is a solid phase reaction, the refuse is converted to refuse solid fuel (RDF) in order to improve the reactivity (rate).

[0009] The above Symbol of the condition is satisfied, the method of the present invention
Solid fuel (RDF) suitable for solidification of combustion ash that is burned and processed by the device is municipal waste, industrial waste, and other waste.
It consists of a molded product of a component-adjusted mixture with a calcium oxide (CaO) source material and a silica / alumina source material (SiO ₂ / Al ₂ O ₃ source material), and the cement compound in the combustion ash of the refuse solid fuel is The hydration and solidification is sufficiently performed, and a high-strength hydrated solid is obtained, and the mixing ratio is 15 to 50% by weight which does not decrease the heat generation amount per unit weight or increase the processing amount. as such, the addition amount of calcium oxide source material and a silica-alumina source material is adjusted ash
It is . As described above, the calcium oxide source material and the silica / alumina source material are added so that the cement compound in the combustion ash of the solid refuse becomes 15 to 50% by weight. When the content of the cement compound is less than the above range, hydration and solidification of the combustion ash is not sufficiently performed, and a large amount of a solidifying additive such as cement is required, while the content of the cement compound is in the above range. When the value exceeds, the strength of the hydrated solidified body of the combustion ash does not increase much more, and a sufficiently high-strength hydrated solidified body can be obtained at the upper limit of the above range. Further, when a large amount of a calcium oxide source material and a silica / alumina source material are added to the RDF, the calorific value per unit weight decreases and the treatment amount increases. As the calcium oxide source material, at least one selected from the group consisting of limestone, slaked lime, quick lime, blast furnace slag and dolomite is used, and as the silica / alumina source material, at least clay, dredged sludge dry matter and construction excavated soil are used. Either is used.
These silica / alumina source materials include Fe ₂ O ₃
Is also included.

[0010] Further, the above-mentioned method for producing solid refuse fuel (RDF) suitable for solidification of combustion ash is a method for producing solid refuse fuel from municipal solid waste and industrial waste. The mixing ratio of the cement compound is such that the hydration and solidification of the combustion ash is sufficiently performed, and a high-strength hydrated solid is obtained, and the decrease in the calorific value per unit weight and the increase in the treatment amount do not increase. If necessary, a calcium oxide source material and a silica / alumina source material are added to and mixed with the dried, sorted, and crushed garbage so as to have a concentration of 15 to 50% by weight. it is intended to compression-molding. In this case, as the calcium oxide source material, at least one selected from the group consisting of limestone, slaked lime, quick lime, blast furnace slag, and dolomite is used, and as the silica / alumina source material, clay, dried dredged sludge and construction materials are used. At least one of the earth removal is used.

[0011] In order to achieve the above object, the method of the present invention for combusting refuse solid fuel (RDF) suitable for solidification of combustion ash comprises a method of sorting and crushing municipal waste, industrial waste and the like.
Mito, limestone, slaked lime, quicklime, blast furnace slag and doloma
At least one oxidized calcium selected from the group of
Source material, clay, dredged sludge dry matter and construction
Component adjustment with at least one of the silica and alumina source materials
It consists of a compact of a mixture,
If the cement compound is sufficiently hydrated and solidified,
High strength hydrated solids can be obtained and the unit weight
The decrease in heat generation per unit and the increase in processing amount do not increase
Oxidizing oxide so that the mixing ratio is 15 to 50% by weight.
Adjustment of the addition amount of the lucium source material and silica / alumina source material
Garbage solid fuel suitable for solidification of the compression-molded combustion ash is, to supply the combustible reforming furnace, a temperature that does not produce dioxins by complete combustion 800 ° C. or higher, preferably combustion at 900 ° C. or higher At the same time as burning ash
Utilizing the hydration reaction of the cement compound by modifying the combustion ash so that 15 to 50% by weight of the cement compound is produced , adding an alkali agent to the modified combustion ash and kneading the modified combustion ash with water after solidified by molding, curing, and is configured so as to crushed solid-<br/> embodying. As described above, the production of the cement compound starts at about 800 ° C. and 1450 ° C.
The temperature in the combustion and reforming furnace is 800
C. or higher, preferably 900 C. or higher.

Further, a waste solid fuel (RDF) combustion treatment apparatus suitable for solidifying combustion ash of the present invention is sorted and crushed.
Municipal waste, industrial waste, and other limestone, slaked lime,
Small lime selected from the group of quicklime, blast furnace slag and dolomite.
At least any calcium oxide source material, clay,
At least one of dried sled sludge and construction waste
From the molded body of the component adjustment mixture with the alumina source material
Cement compounds in the combustion ash of solid fuel
Hydration and solidification of ash is sufficiently performed and high strength hydration and solidification
Body and a reduction in the heat value per unit weight.
And the mixing ratio does not increase the amount of
The calcium oxide source material and the silicon
The amount of the alumina source material is adjusted and compressed and molded.
And the waste solid fuel suitable for solidification of the combustion ash, the complete combustion by 15 to 50% by weight of the cement compound in combustion ash with the combustion of refuse fuel was heat-treated at 800 ° C. or higher which is the temperature that does not produce dioxins Combustion / reforming furnace for generation and a kneader for solidifying the reformed combustion ash collected from the exhaust gas of the combustion / reforming furnace by hydration reaction of the cement compound in the reformed combustion ash , Molding machine, nutrition
And a solidified body manufacturing apparatus comprising a green room and a crusher . Solidified manufacturing apparatus, as described above
It is composed of a kneading machine, a molding machine, a curing room and a crusher.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention is not limited to the following embodiments, but can be implemented with appropriate modifications. FIG. 1 shows combustion using the method and apparatus of the present invention.
Garbage solid fuel (RDF) suitable for solidification of combustion ash to be treated
1 shows an apparatus for performing the manufacturing method. Municipal waste, industrial waste, etc., pre-processed for RDF production, for example, after the garbage bag is broken, the metal is separated by a magnetic separator, etc., and then dried, sorted, and crushed as necessary. To the garbage, a calcium oxide source material and a silica / alumina source material are added and mixed by the mixer 10. The pretreatment of crushing, drying, and sorting of the garbage may or may not be performed, and the order of the garbage is not limited. The amount of calcium oxide source material and silica / alumina source material added depends on the amount of cement compound in the combustion ash in the RDF.
Is adjusted so as to be 15 to 50% by weight. Calcium oxide source material and silica / alumina source material
It may be added to the refuse or may be charged into the mixer 10. The component-adjusted mixture from the mixer 10 is supplied to the molding machine 12, and is compressed and molded into, for example, a crayon shape to produce an RDF containing an additive. In some cases, a drying / neutralization / solidification step is provided after the molding step.

FIG. 2 shows an RD according to the first embodiment of the present invention.
The apparatus which performs the combustion processing method of F is shown. The additive-containing RDF manufactured as described above is supplied to the fluidized bed combustion / reforming furnace 14 and is heated to 800 ° C. or higher, preferably 90 ° C.
Burn above 0 ° C. At this time, at the same time, the combustion ash is reformed, and 15 to 50% by weight of the cement compound is generated in the combustion ash. The temperature of the fluidized bed 16 is 800-1100 ° C., and the temperature of the free board 18 is 900-1200 ° C. Furnace 1
The flue gas from 4 is introduced into a gas cooling tower or boiler 20 and cooled, and then introduced into an air preheater 22 to preheat air. Next, the exhaust gas from the air preheater 22 is introduced into a dust collector 24 such as a bag filter or a cyclone to collect incinerated fly ash (fly ash). After the lime powder such as slaked lime and quick lime is supplied to the exhaust gas from the bag filter 24 by the lime supply device 26, the other bag filter 2
The hydrogen chloride gas in the exhaust gas is introduced into the exhaust gas 8 and desalted.

Dust collector 24 such as a bag filter or a cyclone
The incinerated fly ash collected in
The mixture is supplied to the kneader 30 together with an alkali agent such as quicklime, limestone, dolomite, caustic soda, waste concrete powder, cement, and additives such as gypsum and blast furnace slag, and is stirred and kneaded. In this case, when by adding an alkali agent to perform hydration solidification reaction, since it is possible to manufacture a high-strength concrete substance, you add an alkali agent. 32 is an alkali agent feeder, and 34 is a kneading water feeder. In this case, the water content of the kneaded product is 15 to 35% by weight. Further, the addition amount of the alkali agent is 10% by weight or less. Next, the kneaded material is molded by a molding machine 36 and then cured in a curing room 38 to be a solidified body. Curing includes, for example, pre-curing at room temperature to 50 ° C for several hours to 24 hours, 60 ° C or more (for example, 60 to 100 ° C).
C) for about 24 hours. When a boiler is used in the cooling unit instead of the gas cooling tower, it is preferable to use low-temperature steam generated by the boiler in the curing step. The high-temperature steam generated by the boiler is supplied to a steam turbine (not shown) or the like. Solidified bodies produced is crushing, roadbed materials, construction materials such as soil improvement material, is effectively utilized for building materials. The exhaust gas treatment system is not limited to the above, and for example, a cyclone is installed upstream of the gas cooling tower or the boiler 20 or upstream of the air preheater 22, and the incineration fly ash collected by the cyclone Can be supplied to the kneading machine 30. In this case, the dust collector 24 such as a bag filter and a cyclone can be omitted.

As described above, the RDF containing the additive is mixed with a predetermined calcium oxide source such as limestone and a silica / alumina source such as clay at 800 ° C. or higher, preferably 900 ° C.
A heat treatment is performed at a temperature of not less than ° C. to generate and modify a cement compound such as C ₂ S in the combustion ash, and the modified combustion ash is solidified by using a hydration reaction to produce a solidified body. As a result, CS-
H gel (gel composed of CaO, SiO ₂ , H ₂ O), ettringite (3CaO.Al ₂ O ₃ .3CaSO _4.
A hydrated compound such as 32H ₂ O) is produced, whereby the elution amount of heavy metal satisfies the soil environmental standard value, thereby making it harmless, and at the same time, the solidified body has a compressive strength of 1%.
Since it has a weight of 00 kgf / cm ² or more, it can be effectively used as a civil engineering construction material such as a roadbed material.

FIG. 3 shows an RD according to a second embodiment of the present invention.
The apparatus which performs the combustion processing method of F is shown. In the present embodiment, a rotary kiln 40 is used as a combustion / reforming furnace, and main ash from the rotary kiln 40 is pulverized by a pulverizer 42 and supplied to the kneader 30 together with incinerated fly ash. The temperature of the rotary kiln 40 is 900 to 1400 ° C. In some cases, the main ash of the rotary kiln 40 is discarded, and only the incineration fly ash is kneaded. In addition, rotary kiln 40
Alternatively, a stoker furnace can be used. Other configurations and operations are the same as those in the first embodiment.

[0018]

EXAMPLES Examples and comparative examples are shown below to further clarify the features of the present invention. Comparative Example 1 Municipal waste was incinerated using a stoker furnace at a primary combustion temperature of about 600 ° C., and stoker fly ash (fly ash) collected from exhaust gas was mixed with a cement / fly ash ratio of 0.3.
(Weight ratio), water / cement ratio = 1.13 (weight ratio), and the mixture was cured at room temperature for 72 hours to obtain a solid. The compressive strength of this solid was 8.0 kgf / cm ² . These values are summarized in Table 1.

[0019]

[Table 1]

Comparative Example 2 Municipal refuse was incinerated in a fluidized bed furnace at a fluidized bed temperature of about 600 ° C., and fly ash collected from exhaust gas was discharged at a cement / fly ash ratio = 0.3 (weight ratio), water / Cement ratio = 1.
The mixture was kneaded at 50 (weight ratio), solidified, and cured at room temperature for 72 hours to obtain a solid. The compressive strength of this solid is 60.8kg
f / cm ² . These values are summarized in Table 1.

Example 1 Limestone and clay were added to municipal waste pre-treated for RDF production and mixed so that the cement compound in the RDF combustion ash was 15% by weight, and the mixture was molded. Lumber R
DF is burned in a fluidized bed furnace at a fluidized bed temperature of 900 ° C.,
Fluidized bed fly ash was collected from the exhaust gas to obtain modified ash A. Table 2
As shown in the figure, the amount of the cement compound is about 40, and it can be seen that the cement compound is generated by the high-temperature reforming of the RDF combustion ash whose components are adjusted. The unmodified ash in Table 2 is fly ash when RDF was burned in a fluidized bed furnace.

[0022]

[Table 2]

Example 2 Limestone and clay were added to municipal waste pretreated for RDF production and mixed so that the cement compound in the RDF combustion ash was 30% by weight, and the mixture was molded. Lumber R
DF is burned in a fluidized bed furnace at a fluidized bed temperature of 900 ° C.,
Fluidized bed fly ash was collected from the exhaust gas to obtain modified ash B. Table 2
As shown in the figure, the amount of the cement compound was about 60, and it can be seen that the cement compound was generated by the high-temperature reforming of the RDF combustion ash whose components were adjusted.

In the case where slaked lime was not added to the unmodified ash and the modified ashes A and B obtained as described above, when 10 wt% was added, and when 20 wt% was added, each was kneaded with water and solidified. And cured at 95 ° C. for 24 hours to obtain a solid. Then, the relationship between the amount of the cement compound and the compressive strength was determined. The results were as shown in FIG. From Figure 4, it is possible to obtain a solid material of high compressive strength of 80 kgf / cm ² before and after the Aratameshitsuhai A, that it is possible to obtain a solid material of high compressive strength of 118kgf / cm ² before and after the Aratameshitsuhai B Understand.

[0025]

As described above, the present invention has the following effects. (1) Since the combustion ash itself has hydraulic properties, a high-strength (for example, 100 kgf / cm ² or more ≒ 10 MPa or more) solidified body can be obtained by adding water and a small amount (10 wt% or less) of an alkali agent such as slaked lime. Obtainable. For this reason, in the production of a solidified body, it is not necessary to add the cement conventionally required, or only a small amount is added as an alkali agent, and the amount of cement can be significantly reduced as compared with the conventional solidification method. The cost can be increased, and the amount of the solidified body can be significantly reduced. (2) As an additive used in the production of RDF, inexpensive substances such as limestone and clay and wastes such as dried dredged sludge can be used, and almost no additives for solidification are required in the production of solidified products. Together with this, cost reduction can be achieved. (3) Since energy consumption is low and chemical treatment such as chelating agent is not required, detoxification treatment can be performed at low cost, and the solidified material can be converted into a soil improvement material by selecting additives and optimizing the amount of addition. And civil engineering materials such as roadbed materials and construction materials. (4) Since the combustion ash can be recycled, it is not necessary to bury it as final disposal, and the problem of tightness of the final disposal site can be solved. (5) Since a hydrated compound is produced to produce a solidified combustion ash, elution of heavy metals can be prevented. (6) Since combustion is performed at a high temperature of 800 ° C. or more, desirably 900 ° C. or more to generate a cement compound in the combustion ash, complete combustion is achieved, and no dioxins are generated, and the dioxin content is reduced. However, very little combustion ash is obtained and can be used safely and effectively.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of an apparatus for implementing a method of manufacturing an RDF suitable for solidifying combustion ash to be subjected to combustion processing by the method and apparatus of the present invention.

FIG. 2 is a schematic configuration diagram of an apparatus for performing an RDF combustion treatment method suitable for solidifying combustion ash according to the first embodiment of the present invention.

FIG. 3 is a schematic configuration diagram of an apparatus for performing an RDF combustion treatment method suitable for solidifying combustion ash according to a second embodiment of the present invention.

FIG. 4 is a graph showing the relationship between sample ash composition and compressive strength.

[Explanation of symbols]

 REFERENCE SIGNS LIST 10 mixer 12 molding machine 14 fluidized bed combustion / reforming furnace 16 fluidized bed 18 free board 20 gas cooling tower or boiler 22 air preheater 24 dust collector 26 lime feeder 28 bag filter 30 kneader 32 alkaline agent feeder 34 kneading water Feeder 36 Molding machine 38 Curing room 40 Rotary kiln 42 Crusher

────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Toshiki Muraoka 1-1, Kawasaki-cho, Akashi-shi, Hyogo Kawasaki Heavy Industries, Ltd. Inside the Akashi Factory (56) References JP-A-6-185722 (JP, A) JP Hei 8-269471 (JP, A) JP-A Hei 9-248600 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) C10L 5/46 B09B 3/00 C10L 5/48

Claims (2)

(57) [Claims] [Claim 1] Sorted / crushed municipal solid waste and industrial waste
Such as limestone, slaked lime, quicklime, blast furnace slag and
At least one oxidation selected from the group of dolomite
Calcium source material, clay, dredged sludge dry matter and construction waste
At least one of the silica and alumina source materials
Combustion ash from solid fuel
The cement compound in the ash solidifies the combustion ash sufficiently.
And a high-strength hydrated solid can be obtained.
The decrease in heat value per unit weight and the increase in processing amount
So that the mixing ratio is 15 to 50% by weight,
Addition amount of calcium oxide source material and silica / alumina source material
In but your <br/> seen solid fuel suitable for solidification of the combustion ash that has been compressed and molded is adjusted, it is supplied to the combustible reforming furnace, a temperature that does not produce dioxins by complete combustion 800 ° C. or higher Simultaneously with the combustion, the combustion ash is reformed so that 15 to 50% by weight of the cement compound is formed in the combustion ash, and the reforming is performed.
Add an alkaline agent to the combustion ash and knead the modified combustion ash with water
Solidification using the hydration reaction of cement compounds
A method for combusting refuse solid fuel suitable for solidifying combustion ash , comprising forming, curing, and crushing into a solidified body. 2. Sorted and crushed municipal waste and industrial waste
Such as limestone, slaked lime, quicklime, blast furnace slag and
At least one oxidation selected from the group of dolomite
Calcium source material, clay, dredged sludge dry matter and construction waste
At least one of the silica and alumina source materials
Combustion ash from solid fuel
The cement compound in the ash solidifies the combustion ash sufficiently.
And a high-strength hydrated solid can be obtained.
The decrease in heat value per unit weight and the increase in processing amount
So that the mixing ratio is 15 to 50% by weight,
Addition amount of calcium oxide source material and silica / alumina source material
Together but your <br/> seen solid fuel suitable for solidification of the combustion ash that has been compressed and molded is adjusted, and heat-treated at a 800 ° C. or higher at a temperature which does not produce dioxins to burn refuse fuel by complete combustion A combustion / reforming furnace for producing 15 to 50% by weight of a cement compound in the combustion ash, and reforming / combustion of the reformed combustion ash collected from exhaust gas from the combustion / reforming furnace A kneader, a molding machine, a curing room, and a crusher for forming a solid by the hydration reaction of the cement compound in the ash.
A solid waste production apparatus suitable for solidifying combustion ash, comprising: