KR100818768B1 - Distributor of fluidized bed reactor - Google Patents

Abstract

The present invention relates to a dispersion plate of a fluidized bed device, comprising a powder drop prevention plate disposed in a plurality of independent forms at a lower portion of the dispersion plate in the fluidized bed device, and controlling the distance between the powder drop prevention plate and the dispersion plate. In this way, it is possible to prevent the powder forming the fluidized bed in the powder flow chamber at the time of initial input or stop of the fluidized bed device falling into the gas introduction chamber formed at the lower part of the fluidized bed device, The present invention relates to a dispersion plate of a fluidized bed device capable of smoothly operating.

Fluidized bed device, dispersion plate, gas passage hole, powder drop prevention plate

Description

Distributor of fluidized bed reactor             

1 is a longitudinal sectional view showing a first embodiment of the dispersion plate of the fluidized bed device according to the present invention

Figure 2 is a bottom view showing a first embodiment of the powder fall prevention plate installed in the dispersion plate of the fluidized bed device according to the present invention

3 is a longitudinal sectional view showing a second embodiment of the dispersion plate of the fluidized bed device according to the present invention;

Figure 4 is a bottom view showing a second embodiment of the powder fall prevention plate installed in the dispersion plate of the fluidized bed device according to the present invention

5 is a schematic longitudinal cross-sectional view showing a dispersion plate of a conventional general fluidized bed apparatus.

<Explanation of symbols for the main parts of the drawings>

10 fluidized bed apparatus 11 body

12 gas introduction pipe 13 gas introduction chamber

14 dispersion plate 14a gas passage hole

15: powder flow chamber 16: powder drop prevention plate                 

17: bolt 18: nut

The present invention relates to a dispersion plate of a fluidized bed apparatus, and more particularly, to preventing powder falling disposed in a plurality of independent forms at a lower portion of a dispersion plate separating a compartment into an upper powder flow chamber and a lower gas introduction chamber in a fluidized bed apparatus. A plate having a plate and adjusting the distance between the powder drop prevention plate and the dispersion plate so that the maximum elevation angle (θ) from the outer end of the powder drop prevention plate to the tip of the gas passage hole located immediately above the powder drop prevention plate ₂ ) by providing a dispersion plate comprising a powder fall prevention plate that is adjustable to be smaller than the angle of repose (θ ₁ ) of the powder, thereby forming a fluidized bed in the powder flow chamber at the time of initial input or when the fluidized bed apparatus is stopped. Uniform dispersion of the gas and the distribution of the device by preventing it from falling into the gas introduction chamber formed under the fluidized bed device. The present invention relates to a dispersion plate of a fluidized bed device capable of smooth operation.

In general, the fluidized bed reactor can measure the pressure difference and the flow rate of the fluid in the packed bed, can measure the flow of groundwater, crude oil, natural gas through the porous medium, and is easily used for filtration, ion exchange, catalytic reaction, etc. Device.                         

In the various fluidized bed apparatuses for forming a gas-solid fluidized bed such as a fluidized bed reactor, a fluidized bed dryer, a fluidized bed roaster, a fluidized bed incinerator, a fluidized bed granulator, and a fluidized bed coater, the fluidized gas introduced from the bottom of the fluidized bed apparatus A gas dispersion plate for uniformly dispersing therein is provided.

The role of this gas dispersion plate is to distribute the fluidized gas evenly into the apparatus to achieve uniform fluidization in the fluidized bed apparatus.

If this gas dispersion plate is improperly designed and installed, channeling, bubbling, and slugging phenomena occur in the fluidized bed apparatus and adversely affect the reaction.

In particular, in the fluidized bed apparatus used for the gas-solid reaction using the fine powder, the role of the dispersion plate is most important.

Types of dispersion plates used in the prior art include a porous type, a multi-plate type, a perforated type, a nozzle type, and the like. Most of the through type with little is preferable.

However, in the gas-solid fluidized bed apparatus, when the gas dispersion plate is used in the through type, there is a problem that the powder (solid) in the apparatus flows down through the through hole to the bottom of the apparatus. Conventionally, the diameter of the through-holes is adopted to be smaller than the average diameter of the powder used, but in this case, there is a disadvantage in that a large pressure loss occurs in the upper and lower parts of the dispersion plate, and when these through-holes are often blocked due to the deposition of powder. Is generated.                         

In addition, in the case of another through-type dispersion plate, a double plate was used in order to prevent the powder from flowing down to the lower part of the apparatus. There is a disadvantage that occurs when it interferes with.

FIG. 5 is a schematic longitudinal cross-sectional view showing a dispersion plate of a conventional general fluidized bed apparatus, and reference numeral 1 denotes a dispersion plate installed in the fluidized bed apparatus body.

The dispersion plate 1 divides the inside of the main body 2 into a gas introduction chamber 3 below the main body 2 and a powder flow chamber 4 above the main body 2, and at the same time, a gas installed downward. A plurality of gas passage holes 6 are provided for uniformly dispersing the gas flowing from the introduction pipe 5 into the powder flow chamber 4 to form a fluidized bed.

Here, the dispersion plate 1 has a double structure of an upper dispersion plate and a lower dispersion plate so that the powder does not fall from the powder flow chamber 4 to the gas introduction chamber 3 when the operation is stopped.

The upper and lower dispersion plates are fixed to the sidewalls of the main body 2, and the upper and lower dispersion plates have gas passage holes 6 for passing the gas at positions not coincident with each other in the vertical direction. It is installed.

By the way, the dispersion plate 1 of the conventional fluidized bed device is troubled in operation because falling objects and the like are stacked around the gas passage hole 6 due to the gas and powder to be processed, and the dispersion of the gas is not uniform. In order to maintain a uniform dispersion of gas on the inner surface of the dispersion plate 1 and to ensure smooth operation, there is a problem that the cleaning of the dispersion plate 1 should be performed regularly.

Accordingly, the present invention is to solve the above problems, a plurality of independent powder fall prevention plate in the lower portion of the dispersion plate in order to prevent the flow of the powder during the initial injection of the powder or stop operation of the fluidized bed device While disposing in the form, it is possible to adjust the distance between the powder fall prevention plate and the dispersion plate, so that the powder forming the fluidized bed in the powder flow chamber at the time of initial feeding or when the operation of the fluidized bed device is stopped, It is possible to prevent falling into the formed gas introduction chamber, while reducing the flow rate of the gas flowing into the powder flow chamber during operation of the fluidized bed device, while reducing the flow resistance to reduce the amount of powder laminated on the powder drop prevention plate. Therefore, it provides a dispersion plate of fluidized bed device which can promote uniform gas dispersion and smooth operation of the device. It has that purpose.

Hereinafter, the features of the present invention for achieving the above object are as follows.

The present invention provides a dispersion plate (1) in which a plurality of gas passage holes (6) are provided at the same time, while dividing the interior of the fluidized bed apparatus into a lower gas introduction chamber (3) and an upper powder flow chamber (4). The lower portion of the dispersion plate 14 is characterized in that the powder fall prevention plate 16 disposed in a plurality of independent forms corresponding to each gas passage hole (14a) is installed.

In particular, the powder drop prevention plate 16 has a maximum elevation angle θ from the outer end thereof toward the tip end of the gas passage hole 14a of the dispersion plate 14 located immediately above the powder drop prevention plate 16. ₂ ) is formed to be smaller than the angle of repose (θ ₁ ) of the powder forming the fluidized bed.

In addition, the powder fall prevention plate 16 has a circular shape, and is supported by a bolt 17 and a nut 18 vertically formed at the lower end thereof corresponding to the gas passage hole 14a of the dispersion plate 14 as a center. It is characterized by being fixed.

The powder drop preventing plate 16 has a plurality of quadrangular shapes parallel to the gas passage holes 14a, and is vertically or the like in parallel between the gas passage holes 14a corresponding to the respective powder drop preventing plates 16. It is characterized by being supported / fixed by the bolts 17 and the nuts 18, which are spaced apart.

Hereinafter, the configuration and operation of the present invention with reference to the accompanying drawings in more detail.

1 is a longitudinal cross-sectional view showing a first embodiment of the dispersion plate of the fluidized bed device according to the present invention, Figure 2 is a first embodiment of the powder fall prevention plate installed in the dispersion plate of the fluidized bed device according to the present invention 3 is a longitudinal sectional view showing a second embodiment of the dispersion plate of the fluidized bed device according to the present invention.                     

4 is a bottom view showing a second embodiment of the powder drop prevention plate installed in the dispersion plate of the fluidized bed device according to the present invention.

Here, the configuration of the fluidized bed apparatus for forming a gas-solid fluidized bed is, as shown in FIG. 1, a cylindrical main body 11, a gas introduction tube 12 formed below the main body, and the gas introduction tube ( 12, a gas introduction chamber 13 into which fluidized gas is introduced and filled, a dispersion plate 14 for distributing the gas introduced into the gas introduction chamber 13 evenly, and the dispersion plate 14 It comprises a powder flow chamber 15 introduced through to form a fluidized bed, wherein the distribution plate 14 of the fluidized bed device 10 is the gas introduction chamber 13 and the upper portion of the lower body inside the main body 11 A plurality of gas passage holes 14a are perforated on the plate at the same time as the compartments are separated by the powder flow chamber 15, and the gas passage holes 14a correspond to the gas passage holes 14a of the dispersion plate 14. A plurality of independent powder drop prevention plate 16 installed on the lower part of the Can.

Here, the powder drop prevention plate 16 is circular, as shown in Figure 2, located in the center of the gas passage hole (14a) from the lower surface of the dispersion plate 14, and the support means standing vertically The support means are a plurality of bolts 17 and nuts 18 fixed through the bolts 17.

3 is a longitudinal sectional view showing a second embodiment of the dispersion plate of the fluidized bed device according to the present invention, wherein the dispersion plate 14 has one powder drop prevention plate (1) for a plurality of gas passage holes 14a. 16) can also be installed.

On the other hand, as shown in Figure 4, the powder fall prevention plate 16 is composed of a plurality of quadrangular parallel to the gas passage hole 14a, the gas corresponding to each powder fall prevention plate 16 It is supported / fixed by the bolt 17 and the nut 18 which were erected at equal intervals vertically in parallel between the passage holes 14a.

In general, the angle of repose formed by the powder may be different depending on the size, particle size distribution, shape of the particles of each powder, it is preferable to be able to use the dispersion plate 14 according to the present invention regardless of the various powders.

That is, the powder drop prevention plate 16 is supported by the bolt 17 and the nut 18 installed at the lower end of the dispersion plate 14, and the powder drop prevention plate (by adjusting the engagement position of the nut 18) Angle of repose (θ ₁ ) that the inclined surface formed by the natural state of the conical shape is formed with the horizontal plane by configuring the distance between the 16 and the dispersion plate 14 to be adjustable or by properly selecting the size of the powder fall prevention plate 16. Correspondingly, the maximum elevation angle (θ ₂ ) from the outer end of the powder drop prevention plate 16 toward the tip of the gas passage hole 14a located immediately above the powder drop prevention plate 16 forms a fluidized bed. It is made smaller than the angle of repose of the powder, and it is possible to form a widely used dispersion plate 14 regardless of various powders, so that the gas passage of the dispersion plate 14 at the time of initial introduction of gas or when the fluidized bed device 10 is stopped. Powder falling from the hole 14a By stacking on the powder fall prevention plate 16 to form an equilibrium state by the angle of repose and stacking in a funnel shape to block the gas passage hole 14a, further powder is fluidized through the gas passage hole 14a. It is possible to prevent falling to the bottom of.

In addition, although the plurality of gas passage holes 14a may be disposed on the powder drop prevention plate 16 so as to be positioned directly above, the one of the gas passage holes 14a may be disposed in one powder drop prevention plate 16. If the number is too large, the powder drop prevention plate 16 becomes large, while the distance between adjacent powder drop prevention plates 16 becomes smaller, so that the flow velocity of the gas forming the fluidized bed becomes too fast, so that these powder drop prevention plates 16 It is preferable to limit the number of gas passage holes 14a of the dispersion plate 14 to one powder fall prevention plate 16 to 3-4 because it may cause abrasion.

In addition, since the angle of repose of most of the powders forming the fluidized bed is about 30-40 °, the distance between the dispersion plate 14 and the powder drop prevention plate 16 is adjusted in consideration of the case where the maximum elevation angle is 40 °. In this case, since the elevation angle can be made smaller than the angle of repose of the powder used for forming the fluidized bed, the gas dispersion plate of the present invention can be used regardless of the type of powder.

On the other hand, the powder accumulated on these powder drop prevention plates 16 is returned to the powder flow chamber 15 in the apparatus by the flow velocity of the fluidizing gas flowing from the gas introduction chamber 13 when the fluidized bed apparatus 10 is restarted. It will flow in.

As described above, the dispersion plate of the fluidized bed apparatus according to the present invention prevents the powder from falling into the gas introduction chamber by blocking the gas passage hole from the powder laminated on the powder fall prevention plate. On the other hand, more specifically, the distance between the powder fall prevention plate and the dispersion plate can be adjusted so that the upper part of the powder fall prevention plate is directly above the outer end of the appropriate powder fall prevention plate according to the angle of repose of various kinds of powders. By setting so that the maximum elevation angle toward the tip of the gas passage hole located at is smaller than the angle of repose of the powder, there is an effect that can be used regardless of the type of powder.

Claims (6)

In the dispersion plate (1) having a plurality of gas passage holes (6) while separating the inside of the fluidized bed apparatus into a lower gas introduction chamber (3) and an upper powder flow chamber (4), the dispersion plate (1) The lower portion of the 14 is supported by the support plate side by side with the dispersion plate 14, characterized in that the powder fall prevention plate 16 disposed in a plurality of independent forms corresponding to the gas passage hole 14a is installed Dispersion plate of fluidized bed apparatus. The dispersion plate of the fluidized bed apparatus according to claim 1, wherein the support means is a bolt (17) and a nut (18) for supporting the powder drop prevention plate (16) under the dispersion plate (14). . The dispersion plate of the fluidized bed apparatus according to claim 1, wherein the powder drop prevention plates (16) are provided one by one corresponding to each gas passage hole (14a). The powder drop prevention plate (16) according to claim 1, wherein one of the powder drop prevention plates (16) corresponds to at least two or more gas passage holes (14a), and these are configured in a combination form in which they are arranged at equal intervals in parallel. Dispersion plate of fluidized bed apparatus. 2. The powder drop preventing plate (16) according to claim 1, wherein the powder drop preventing plate (16) extends from the outer end thereof toward the tip of the gas passage hole (14a) of the dispersion plate (14) located immediately above the powder drop preventing plate (16). Dispersion plate of a fluidized bed apparatus, characterized in that the angle of elevation (θ ₂ ) is smaller than the angle of repose (θ ₁ ) of the powder forming the fluidized bed. According to claim 5, wherein the condition that the maximum elevation angle (θ ₂ ) of the powder fall prevention plate 16 is adjusted to be smaller than the angle of repose (θ ₁ ) of the powder is distributed by adjusting the bolt 17 and the nut 18 ( The dispersion plate of the fluidized bed apparatus characterized by being satisfied by the distance control with 14).

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