JPH0835637A - Fluidized bed type incinerator - Google Patents

Abstract

PURPOSE:To provide a fluidized bed type incinerator, which does not generate uneven incineration, or incomplete combustion without increasing cost. CONSTITUTION:A fluidized without bed type incinerator is provided with a fluidized bed forming means, arranged below the main body 41 of the same and forming a fluidized bed 24 by injecting air, sludge supplying pipe 52, arranged on the ceiling of the main body 41 of the incinerator and whose tip end 52a is bent by 20-90 deg. with respect to a vertical axis, a motor 54, rotating the sludge supplying pipe 52, and a control device 55, changing the rotating speed of the motor 54 periodically. Materials to be incinerated are supplied from the tip end 52a of the sludge supplying pipe 52 being rotated into the main body 41 of the incinerator whereby they are scattered efficiently into the whole area of the main body 41 of the incinerator. Local shortage of oxygen or local change of temperature will never be generated whereby the generation of variety of incineration, incomplete combustion and the like can be prevented.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a fluidized bed incinerator.

[0002]

2. Description of the Related Art Conventionally, sludge such as surplus sludge and coagulating sedimentation (chinden) sludge is generated in a wastewater treatment apparatus. The sludge is concentrated in a sludge concentrating tank and then dehydrated by a centrifugal dehydrator or the like. It becomes dehydrated sludge. afterwards,
The dehydrated sludge is dehydrated and incinerated together with the residue in a fluidized bed incinerator.

FIG. 2 is a schematic view of a conventional fluidized bed type incinerator. In the figure, 11 is an incinerator body, 13 is dehydrated sludge,
A hopper 14 is supplied with dewatered matter to be incinerated such as residue, and 14 is a screw feeder for supplying the incinerator body supplied to the hopper 13 to the incinerator main body 11. The screw feeder 14 includes a horizontally extending pipe 15 and the pipe 1.
The auger 16 is rotatably arranged in the motor 5, and the motor 17 rotates the auger 16. The hopper 13
The substance to be incinerated supplied to is moved horizontally by the auger 16 and is supplied to the incinerator body 11.

The incinerator main body 11 has a perforated plate 19 disposed above the bottom surface by a certain distance, and an air chamber 20 is formed between the perforated plate 19 and the bottom surface. Then, combustion air is supplied to the air chamber 20 through a line 21. The air supplied to the air chamber 20 is jetted upward from each hole 22 of the perforated plate 19. On the other hand, the material to be incinerated supplied to the incinerator body 11 via the screw feeder 14 drops inside the incinerator body 11, but the porous plate 1
A fluidized medium (generally silica sand is used) preliminarily laid on 9 is suspended in the air and heated to form a fluidized bed 24. A line 25 is connected to a position corresponding to the fluidized bed 24, and heavy oil as a fuel is supplied through the line 25.

The gas generated by the incineration of the material to be incinerated becomes exhaust gas and is discharged to the exhaust gas pipeline 26.
In the fluidized bed 24, the incinerated matter is violently disturbed and the char (blackened matter), water vapor, carbon dioxide gas film formed on the surface of the incinerated matter is removed.
An ideal combustion environment is formed around the material to be incinerated.

[0006]

However, in the above-mentioned conventional fluidized bed type incinerator, since the incineration object is supplied from the side surface of the incinerator body 11 by the screw feeder 14, the incinerator body 11 is incinerated. The incineration is concentrated in one place. Therefore, for example, oxygen is locally insufficient in the area AR indicated by the broken line, or the temperature changes, and uneven burning occurs and incomplete combustion occurs.

Therefore, it is conceivable to provide a plurality of the screw feeders 14 and supply the materials to be incinerated from each screw feeder 14, but the cost of the fluidized bed incinerator becomes high. Moreover, since it is supplied only from the furnace wall, the center of the incinerator always becomes a dead space. The present invention solves the problems of the conventional fluidized bed type incinerator, and provides a fluidized bed type incinerator that does not cause incomplete combustion and incomplete combustion and does not increase the cost. To aim.

[0008]

To this end, in the fluidized bed type incinerator of the present invention, a fluidized bed forming means which is disposed in the lower part of the incinerator body and forms a fluidized bed by injecting air, The sludge supply pipe, which is disposed on the ceiling of the incinerator body and has its tip bent by 20 to 90 [°] with respect to the vertical axis, the motor for rotating the sludge supply pipe, and the rotation speed of the motor are periodically changed. And a control device for changing.

In another fluidized bed incinerator of the present invention,
Compressed air mixing means for mixing compressed air into the material to be incinerated supplied to the sludge supply pipe is provided.

[0010]

According to the present invention, as described above, in the fluidized bed type incinerator, the fluidized bed forming means is provided in the lower portion of the incinerator body and forms the fluidized bed by injecting air.
The sludge supply pipe, which is disposed on the ceiling of the incinerator body and has its tip bent by 20 to 90 [°] with respect to the vertical axis, the motor for rotating the sludge supply pipe, and the rotation speed of the motor are periodically changed. And a control device for changing.

In this case, in the fluidized bed, the material to be incinerated is disturbed violently and char formed on the surface of the material to be incinerated,
Since the film of water vapor, carbon dioxide, etc. is removed, an ideal combustion environment is formed around the material to be incinerated. Moreover, since the incineration object is supplied to the incinerator main body from the tip of the sludge supply pipe that is rotated, it is efficiently scattered throughout the incinerator main body.

In another fluidized bed incinerator of the present invention,
Compressed air mixing means for mixing compressed air into the material to be incinerated supplied to the sludge supply pipe is provided. In this case, the incineration object mixed with the compressed air is made into small pieces by the compressed air when supplied from the tip of the sludge supply pipe to the incinerator body, so that the whole area in the incinerator body is more efficiently Be scattered.

[0013]

Embodiments of the present invention will now be described in detail with reference to the drawings. 1 is a schematic diagram of a fluidized bed incinerator according to an embodiment of the present invention, FIG. 3 is a diagram showing a fluidized bed incinerator according to an embodiment of the present invention, and FIG. 4 is a fluidized bed incinerator according to an embodiment of the present invention. It is a figure which shows the other example of.

In FIG. 3, 31 is a sludge thickening tank,
The sludge thickening tank 31 is supplied with excess sludge from the sedimentation tank, sludge such as coagulating sedimentation sludge, and concentrated. Then, the concentrated sludge is supplied to the sludge storage tank 32, and the sludge storage tank 3
Stored in 2. Further, 33 is a dehydrator, which receives the sludge stored in the sludge storage tank 32 and dehydrates it.
Therefore, a dehydration aid is added to the sludge in the dehydrator 33. Then, the sludge is dehydrated by the dehydrator 33 to be dehydrated sludge and supplied to the dehydrated sludge hopper 35.
On the other hand, the water generated by the dehydration is discharged to the miscellaneous drainage tank 36. Then, the miscellaneous wastewater of the miscellaneous wastewater tank 36 is measured and adjusted by the measurement adjustment tank 37.
Is supplied to.

The screen residue discharged from the settling tank is dehydrated by a dehydrator (not shown) to be a screen residue and supplied to the screen residue hopper 39. Then, the dehydrated sludge from the dehydrated sludge hopper 35 and the dehydrated residue from the sludge hopper 39 are supplied to the incinerator body 41 and incinerated in the incinerator body 41. The exhaust gas discharged from the incinerator body 41 is supplied to the heat exchanger 143, and the heat exchanger 143
In the above, the air for combustion is preheated, and then supplied to the dust collector 144.

In the dust collector 144, the dust in the exhaust gas is removed, and the exhaust gas after the dust is removed is sucked by the induction fan 145 and discharged from the chimney 146. On the other hand, the dust is supplied to the ash hopper 147 and discarded from the ash hopper 147. Next, the fluidized bed type incinerator will be described.

In FIG. 1, 41 has a diameter of 3 to 7 [m].
Of the incinerator, 43 is the dehydrated sludge hopper 35 (FIG. 3)
It is a line that is connected to the residue hopper 39 and supplies dewatered sludge, dewatered residue, and other incineration objects. Reference numeral 44 is a sludge supply pump that supplies the supplied incineration object to the incinerator main body 41. The sludge supply pump 44 is composed of a horizontally extending pipe 45, an auger 46 rotatably arranged in the pipe 45, and a motor 47 for rotating the auger 46. The incineration object is moved in the horizontal direction by the auger 46 and discharged to the line 48.

The incinerator body 41 serves as a fluidized bed forming means, and the perforated plate 1 is disposed above the bottom surface by a certain distance.
9, and an air chamber 20 is formed between the perforated plate 19 and the bottom surface. Then, combustion air is supplied to the air chamber 20 through a line 21. The air supplied to the air chamber 20 is jetted upward from each hole 22 of the perforated plate 19.

On the other hand, the material to be incinerated discharged to the line 48 is supplied to the sludge supply device 51, and the sludge supply device 51.
Is supplied to the main body 41 of the incinerator. The incinerator body 4
The substance to be incinerated supplied to No. 1 drops in the incinerator body 41, but the air is sprayed with a fluid medium (generally silica sand is used) spread in advance on the perforated plate 19. And is heated by heating to form a fluidized bed 24. A line 25 is connected to a position corresponding to the fluidized bed 24, and heavy oil as a fuel is supplied through the line 25. The fluidized bed 24 is about 700
The temperature becomes [° C.], and the temperature near the ceiling of the incinerator body 41 becomes approximately 800 [° C.].

In the fluidized bed 24, the incineration object is violently disturbed, and the black burnt material formed on the surface of the incineration object,
Since the film of water vapor, carbon dioxide, etc. is removed, an ideal combustion environment is formed around the material to be incinerated. Then, the gas generated by incineration of the incineration object becomes exhaust gas and is discharged to the exhaust gas pipeline 26.

The sludge supply device 51 is a sludge supply pipe 5 rotatably supported on the ceiling of the incinerator body 41.
2 and a motor 54 for rotating the sludge supply pipe 52. A tip 52a of the sludge supply pipe 52 is bent by 20 to 90 [°] with respect to a vertical axis and is incinerated supplied by the sludge supply pump 44. The product is the sludge supply pipe 52.
It is scattered by the centrifugal force from the tip 52a of the and falls inside the incinerator body 41. Therefore, the line 48 and the sludge supply pipe 52 are connected by a rotary joint 53, and the line 48 is connected via the rotary joint 53.
The material to be incinerated therein is continuously supplied to the sludge supply pipe 52.
The distance between the surface of the fluidized bed 24 and the ceiling of the incinerator body 41 is 4 to 8 [m].

The motor 54 is controlled by the controller 55, and the centrifugal force of the incineration object can be changed by periodically changing the rotation speed. Therefore, the incineration object is scattered all over the inside of the incinerator body 41. In this case, considering the time until the incineration object is completely incinerated, it is preferable to change the rotation speed of the motor 54 at intervals of 2 to 4 minutes. The rotation speed can be changed at intervals of 1 to 10 minutes depending on the amount of water contained in the material to be incinerated.

Further, a compressed air supply means for mixing compressed air into the material to be incinerated in the line 48 is provided.
That is, the line 58 is connected to the line 48,
Compressed air can be mixed into the material to be incinerated through the line 58. For that purpose, an accumulator 59 is connected to the line 58, and air compressed by a compressor (air compressor) 60 to a pressure of ^{2 to} 15 [kg / cm ² ] is stored in the accumulator 59. An electromagnetic valve 62 is arranged in the line 58, and the electromagnetic valve 62 is opened and closed by the control device 55 to intermittently supply compressed air to the line 48, for example, 0.5.
It can be delivered at ~ 2 second intervals.

Therefore, the material to be incinerated mixed with the compressed air is fed from the tip 52a of the sludge supply pipe 52 to the incinerator body 4.
When it is supplied to No. 1, it is made into small pieces by compressed air, so that it can be scattered more efficiently in the entire area of the incinerator body 41. In this way, the sludge supply device 51 to the incinerator body 4
Since the incineration material supplied to No. 1 scatters in the whole area of the incinerator body 41, oxygen is not locally insufficient and the temperature does not change, and uneven burning, incomplete combustion, etc. occur. Can be prevented.

Further, since the sludge supply device 51 need only be installed at one location on the ceiling of the incinerator body 41, the cost of the fluidized bed type incinerator can be reduced. In the present embodiment, the fluidized bed 24 is formed by the perforated plate 19. However, as shown in FIG. 4, a plurality of air headers 71 are arranged in parallel below the inside of the incinerator body 41, The fluidized bed 72 can also be formed by the air header 71. In this case, air diffuser nozzles 73 are formed at a plurality of locations on the upper surface of the air header 71, and air is jetted from the air diffuser nozzles 73.

A flow path 74 for dropping incombustibles is formed between the air headers 71. It should be noted that the present invention is not limited to the above-described embodiments, and various modifications can be made based on the spirit of the present invention, and they are not excluded from the scope of the present invention.

[0027]

As described in detail above, according to the present invention, in a fluidized bed type incinerator, the fluidized bed is disposed below the incinerator body and forms a fluidized bed by injecting air. Forming means, a sludge supply pipe disposed at the ceiling of the incinerator body and having a tip bent by 20 to 90 [°] with respect to a vertical axis, a motor for rotating the sludge supply pipe, and a rotation speed of the motor. And a control device that periodically changes.

Further, since the incineration object is supplied to the main body of the incinerator from the tip of the sludge supply pipe which is rotated, it can be efficiently scattered all over the main body of the incinerator. Therefore, it is possible to prevent the occurrence of uneven burning, incomplete combustion, etc. without locally causing a shortage of oxygen or changing the temperature. In another fluidized bed type incinerator of the present invention,
Compressed air mixing means for mixing compressed air into the material to be incinerated supplied to the sludge supply pipe is provided.

In this case, since the incinerated material mixed with the compressed air is made into small pieces by the compressed air when being supplied to the incinerator body from the tip of the sludge supply pipe, the incinerated material is spread over the entire area of the incinerator body. It can be scattered more efficiently.

[Brief description of drawings]

FIG. 1 is a schematic view of a fluidized bed type incinerator according to an embodiment of the present invention.

FIG. 2 is a schematic view of a conventional fluidized bed incinerator.

FIG. 3 is a diagram showing a fluidized bed incineration plant according to an embodiment of the present invention.

FIG. 4 is a diagram showing another example of the fluidized bed incinerator according to the embodiment of the present invention.

[Explanation of symbols]

 19 Perforated Plate 24, 72 Fluidized Bed 41 Incinerator Main Body 52 Sludge Supply Pipe 52a Tip 54 Motor 55 Controller 59 Accumulator 60 Compressor (Air Compressor) 71 Air Header

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI technical display location F23G 7/00 104 C

Claims (2)

[Claims] 1. A fluidized bed forming means for forming (a) a fluidized bed by injecting air, the fluidized bed forming means being disposed at a lower portion of the incinerator body, and (b) being disposed on a ceiling of the incinerator body and having a tip. A sludge supply pipe bent at 20 to 90 [°] with respect to the vertical axis, and (c) a motor for rotating the sludge supply pipe,
(D) A fluidized bed incinerator, comprising: a controller for periodically changing the rotation speed of the motor. 2. The fluidized bed incinerator according to claim 1, further comprising a compressed air mixing means for mixing compressed air into the material to be incinerated supplied to the sludge supply pipe.