JP3023081B2 - Fluidized bed equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluidized bed apparatus for processing (drying, heating, cooling, or a combination thereof) materials having a wide particle size distribution, such as coal and slag.

[0002]

2. Description of the Related Art When raw materials such as coal and slag are treated using a fluidized bed, particles of coal and slag have a very wide particle size distribution, so that a fluidized gas is ejected from below the dispersion plate. Even if a fluidized bed is formed by the treatment, coarse particles that do not fluidize exist. As described in JP-A-5-71875, gas is ejected obliquely upward along the inclined surface of the dispersion plate to transfer coarse particles that do not flow, so that the coarse particles jump over the jump table. Fluidized bed devices are known. Japanese Patent Application Laid-Open No. Hei 6-281110 describes a large lump discharging apparatus in which a large lump discharging chute is connected to the center of a dispersion plate of a fluidized bed furnace. Conventionally, as a dispersion plate of a fluidized bed apparatus, a cap type and a perforated plate type are generally known.

[0003]

SUMMARY OF THE INVENTION The above-mentioned Japanese Patent Application Laid-Open No. 5-7 / 1993
The apparatus described in Japanese Patent No. 1875 has a drawback that it is necessary to eject gas at a very high flow rate, so that the pressure loss is large and the dispersion plate is easily worn. In addition, since the structure of the dispersion plate is complicated, maintenance is complicated and difficult. Also,
Since the maximum particle size that can be transferred is determined by the gas ejection speed, a large lump may stagnate on the dispersion plate, and the apparatus may be shut down. Further, in order to surely transfer the coarse particles, it is necessary to increase the flow velocity of the fluidized bed, and the scattering amount of the fine powder increases.

A conventionally known cap-type dispersion plate has many immovable portions of particles and has a poor mobility of large lumps, and thus is not suitable for handling particles having a wide particle size distribution. In addition, abrasion of the cap and clogging of the nozzle become problems. On the other hand, if the perforated plate type dispersion plate is properly designed in consideration of the uniformity of ejection, the immovable portion of particles between nozzles, the height of the jet, etc., even if there are some large lumps, the whole is fluidized. Can be excellent in wear and clogging. However, a disadvantage that the drop is relatively high in the treated product from perforated plate, leaving the deposition of droppings on wind box, in such drying coal is dangerous. Note that the above-mentioned JP-A-6-2
No. 81110 discloses a falling object ejector for continuously or intermittently extracting particles that have fallen into a wind box,
Nothing is described.

The present invention has been made in view of the above-mentioned points, and an object of the present invention is to treat a material having a wide particle size distribution, such as coal and slag, by using a fluidized bed (drying, heating, cooling, or the like). To provide a fluidized bed device that is low in ejection velocity and fluidized bed flow velocity, reduces the amount of scatter, and can reliably maintain a stable fluidized state, and is safe and easy to operate and maintain. It is in.

[0006]

In order to achieve the above-mentioned object, a fluidized bed apparatus according to the present invention comprises a perforated plate type dispersion plate provided below a fluidized bed portion, and has a wide particle size of coal, slag and the like. Minute
A fluidized bed apparatus for processing a material having a cloth, wherein a wind box below a perforated plate-type dispersion plate is formed in a hopper shape, and the perforated plate-type dispersion plate is ejected at a lower end of the hopper-shaped wind box. Through the hole
Spent fallen particles within windbox (falling object) fall evacuation apparatus for continuously or intermittently discharged is connected to the flow
Immediately below the workpiece inlet provided at the upper end of the layer
Add a fluidized bed to the perforated plate-type dispersion plate
The particle size is equal to or greater than the partial superficial tower speed and the fluidization start speed.
Large lump discharging device for discharging large particles (coarse particles) is connected
To discharge the processed material to the other end of the fluidized bed.
It is characterized in that an object discharging device is connected (FIG. 1,
(See FIG. 4). In this case, the fallen object may be continuously discharged from the fallen object discharge device, or may be controlled so as to be intermittently discharged according to the amount of fall of the fallen object.
As a material of the perforated plate-type dispersion plate, for example, stainless steel such as SUS304 is used from the viewpoint of preventing corrosion and the like.

[0007] As described above, the porous plate type dispersing plate of the fluidized bed subordinates side in the vicinity immediately below the treatment object inlet provided on the upper side of the fluidized bed unit, a fluidized bed portion superficial velocity and minimum fluidization velocity to connect a large lump discharge device for discharging coarse particles (coarse particles) of the grain diameter or the equal (see FIGS. 1 and 4). In this case, when the coarse particles having a particle diameter equal to or larger than the fluidized bed portion superficial velocity and the fluidization start velocity become 8 wt% or more, desirably 3 wt% or more of the treatment amount, the large lump discharging device is activated. If such coarse particles (large lumps) are discharged by using this, a stable fluidized bed can be reliably maintained. In the above-described apparatus of the present invention, it is preferable that a replaceable liner for preventing abrasion of the perforated plate type dispersion plate be mounted on the perforated plate type dispersion plate (see FIGS. 2 and 3). As the material of the liner, for example, stainless steel such as SUS304 is used from the viewpoint of preventing not only wear but also corrosion.

[0008]

Embodiments of the present invention will be described below in detail. FIG. 1 shows a fluidized bed apparatus according to a first embodiment of the present invention. This embodiment shows a case of a one-chamber fluidized-bed dryer. A perforated plate-type dispersion plate 12 is provided at a lower portion in the drying chamber 10, and a fluidized bed 14 on which the object to be processed is a fluidized medium is provided above the perforated plate-type dispersion plate 12.
Is formed. On the lower side of the perforated plate-type dispersion plate 12, a wind box 16 having a hopper shape (a vertically inverted triangular cross section and an open bottom) is provided. A falling object discharging device 28 for continuously or intermittently discharging particles falling into the inside and a falling material discharging device 29 including the falling material discharging chute 18 are connected.

An upper end of the fluidized bed 14 is provided with a workpiece inlet 20. A large chute discharge chute is provided on the perforated plate-type dispersion plate 12 immediately below the workpiece inlet 20 below the fluidized bed. Large lump discharging device 27 comprising 22 and discharging device 26
Is connected. At the other end of the fluidized bed 14 is a processing object discharge device 31 comprising a processing object discharge chute 24 and a discharger 30.
Is connected. As the discharger, a discharger that opens and closes using a gate damper, rotary feeder, and cam mechanism,
An ejector that opens and closes using the balance of the weight is used. Large chute discharge chute 22, Falling object discharge chute 18
And the processed material discharge chute 24 is connected to the transporter 32,
From one end of the transporter 32, a processed material including a large lump is taken out. As the transport device 32, a screw conveyor, a belt conveyor, a chain conveyor, or the like is used.

Next, the operation of the fluidized bed apparatus shown in FIG. 1 will be described. A powdery and granular material such as wet coal is charged from the material inlet 20 and a gas for fluidization and processing is supplied to the wind box 16. For example, in the case of performing a drying treatment, hot air from a hot blast stove, high-temperature exhaust gas, or the like is used as the fluidizing and treating gas. The fluidizing and processing gas spouted from the perforated plate-type dispersion plate 12 forms a fluidized bed 14 of the object to be processed, and the object to be processed is dried. It is discharged by the large lump discharge device 27 from the opening for use. The dried processed material is supplied to the processed material discharging device 3
Emitted from 1. In the meantime, the perforated plate type dispersion plate 1
The particles that have fallen through the second ejection holes are discharged from the falling object discharge device 29. The falling objects are discharged continuously or intermittently. If the amount of falling objects is small, discharge the falling objects intermittently. To continuously discharge falling objects, use discharging machine 2
8 is operated continuously.

In order to discharge large lumps in the material to be treated, particles having a particle diameter (10 to 15 mm in the case of coal drying) or more at which the superficial velocity in the fluidized bed and the fluidization start velocity are equal to each other are treated. When the amount becomes 3 to 8% by weight or more, the large mass discharge device 27 is operated. In the above embodiment, the object to be processed is dried. However, by further increasing the temperature of the fluidizing and processing gas, the object to be processed can be heated, and the fluidizing and processing gas can be heated. By lowering the temperature of the substrate, the object to be processed can be cooled.

FIGS. 2 and 3 show a liner for preventing wear of a perforated plate type dispersion plate in a fluidized bed apparatus according to a second embodiment of the present invention. That is, in the present embodiment, a liner 34 for preventing abrasion of the perforated plate-type dispersion plate 12 is replaceably (removably) provided above the perforated plate-type dispersion plate 12. For example, the liner 34 having the small holes 38 corresponding to the ejection holes 36 of the perforated plate-type dispersion plate 12 is divided into a number of small pieces, and these divided liners are placed on the perforated plate-type dispersion plate 12 by the ejection holes 36. And small hole 38
And fix them with flathead bolts 40 or the like. 41 is a dividing line.

FIG. 4 shows a fluidized bed apparatus according to a third embodiment of the present invention. This embodiment shows a case of a two-chamber fluidized bed coal drying apparatus. That is, the drying chamber is divided by the partition member 42 into the first drying chamber 10 a and the second drying chamber 1.
Ob, and a particle passage 44 is formed between the lower end of the partition member 42 and the perforated plate-type dispersion plate 12. Further, hopper-shaped wind boxes 16a, 16b are respectively provided continuously below the drying chambers 10a, 10b.

A wet coal containing about 10% by weight of water is introduced from the processing object introduction port 20, and a gas for fluidizing and drying is supplied to the wind boxes 16a and 16b. The fluidizing and drying gas is supplied from a hot blast stove 46. Specifically, the fuel and the combustion air are supplied to the hot blast stove 46 to burn the fuel to generate high-temperature hot air, which is diluted with the dilution air to lower the temperature.
For example, hot air of 250 to 350 ° C. is obtained. This hot air is supplied to the wind boxes 16a, 16b via flow control valves (for example, control dampers) 48a, 48b. 50 is an air fan and 52 is a hot air duct. Flow control valves 48a, 48
By adjusting the air volume distribution to each of the drying chambers 10a and 10b in b, a stable fluidized bed can be formed.
For example, since the high-moisture region on the inlet side is difficult to fluidize, the amount of air supplied to the first drying chamber 10a is increased. Classification can be performed simultaneously with drying. In this case, the particle size of the scattered particles is determined by the flow rate of the free board. Therefore, the classified particle size is adjusted by adjusting the distribution of the air volume to each drying chamber.

The fluidizing and drying gas ejected from the perforated plate-type dispersing plate 12 forms a fluidized bed 14 of the particulate coal, and the fluidized bed 14 is formed from the first drying chamber 10a through the particle passage 44 to the second drying chamber 10a.
The coal dries as it moves to the drying chamber 10b. 10
When a large lump of 15 mm or more, for example, 15 mm or more is included, the discharger 26 is operated to discharge the large lump from the large lump discharge chute 22. The dried coal is supplied to a processed material discharge device 31 including a processed material discharge chute 24 and a discharger 30.
Is discharged from Since the temperature in the fluidized bed of the drying chambers 10a and 10b is maintained at a low temperature of, for example, 55 to 60 ° C,
Alteration less of raw materials (coal), also, is Akira An.

During the drying step, the granular coal that has dropped through the ejection holes of the perforated plate-type dispersion plate 12 is discharged to the dischargers 28a, 28
b, is discharged from a falling object discharge device 29 composed of falling object discharge chutes 18a and 18b. Falling object discharge chute 18
a, falling object discharged from 18b, chunk discharge chute 2
The large lump discharged from 2 and the dried coal discharged from the processed material discharge chute 24 are transported by the transporter 32 and are taken out from one end of the transporter 32 as, for example, dry coal having a water content of about 5 wt%. Dried coal includes discharged large lumps, but since the large lumps originally have a low moisture content, they can be handled as dry coal without performing sufficient drying treatment.

Exhaust gas containing pulverized coal discharged from the drying chambers 10a and 10b is introduced into a bag filter 54, where the pulverized coal is collected, and the exhaust gas is discharged from an exhaust pipe 58 by an attraction fan 56. In the present embodiment, the case where the number of drying chambers is two has been described. However, three or more drying chambers can be used. Further, by changing the type of the fluidizing / processing gas, drying, heating, cooling, and the like can be appropriately combined. Other configurations and operations are the same as those in the first and second embodiments.

[0018]

As described above, the present invention has the following effects. (1) Since the perforated plate type dispersion plate has a simple structure,
It is inexpensive, has little wear and clogging, and is easy to maintain. Also, there is no need for a high ejection speed for coarse grain transfer,
The pressure loss of the dispersion plate is reduced. Further, the fluidized bed flow rate may be small, and the amount of scattered fine powder is small. (2) Since the wind box has a hopper shape, and the falling particles (falling objects) falling into the wind box are continuously or intermittently discharged by the falling object discharge device, the falling particles (falling objects) fall into the wind box. Does not accumulate. (3) When the proportion of coarse particles is large, a large lump discharging device is provided immediately below the treatment object inlet, and by discharging a part of the coarse particles, the whole can be fluidized normally. Stable operation can be continued. (4) When the perforated plate-type dispersion plate is worn, maintenance is easy if a structure in which a detachable liner is attached is adopted.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing a fluidized bed apparatus according to a first embodiment of the present invention.

FIG. 2 is a schematic plan view showing a state in which a liner is mounted on a perforated plate type dispersion plate in a fluidized bed apparatus according to a second embodiment of the present invention.

FIG. 3 is a schematic enlarged sectional view showing a state in which a liner is mounted on a perforated plate type dispersion plate in a fluidized bed apparatus according to a second embodiment of the present invention.

FIG. 4 is a schematic configuration diagram showing a fluidized bed apparatus according to a third embodiment of the present invention.

[Explanation of symbols]

 10, 10a, 10b Drying chamber 12 Perforated plate-type dispersion plate 14 Fluidized bed 16, 16a, 16b Hopper-shaped wind box 18, 18a, 18b Falling material discharge chute 20 Workpiece input port 22 Large lump discharge chute 24 Processing material discharge Chutes 26, 28, 28a, 28b, 30 Discharger 27 Large lump discharger 29 Falling material discharger 31 Processed material discharger 32 Transporter 34 Liner 36 Spray hole 38 Small hole 40 Countersunk bolt 42 Partition member 44 Particle passage 46 Hot air stove 48a, 48b Flow control valve 50 Air fan 52 Hot air duct 54 Bag filter 56 Induction fan 58 Exhaust cylinder

Continuation of front page (58) Field surveyed (Int.Cl. ⁷ , DB name) F23C 10/24

Claims (2)

(57) [Claims] 1. A material having a wide particle size distribution, such as coal and slag, provided with a perforated plate type dispersion plate below the fluidized bed portion.
In the fluidized bed apparatus for processing, the wind box below the perforated plate type dispersion plate is configured in a hopper shape, and at the lower end of the hopper-shaped wind box , passing through the ejection holes of the perforated plate type dispersion plate A falling object discharge device for continuously or intermittently discharging particles that have fallen into the wind box is connected, and is provided at one upper end of the fluidized bed.
Below the fluidized bed just below the treated inlet
Of the fluidized bed and the fluidization start speed
To discharge coarse particles with a size equal to or greater than
A mass discharge device is connected, and the processed material is
A fluidized bed apparatus to which a treated material discharging device for discharging is connected . 2. A perforated plate type on the dispersion plate, fluidized bed apparatus according to claim 1, wherein fitted with a replaceable liner to prevent wear of the perforated plate type dispersion plate.