KR20180083297A - Down shot multi-stage gasifier - Google Patents

Abstract

The present invention relates to an additional structure of a down shot multi-stage gasifier, and specifically, to a down shot multi-stage gasifier capable of improving a gas generation rate by suppressing oxygen supply and of improving combustion efficiency of dust coal, in a gasifier facility generating fuel gas by injecting air and the dust coal into the gasifier and combusting the same. According to the present invention, the down shot multi-stage gasifier having an air injection pipe can improve combustion efficiency when combusting the dust coal. Specifically, the shape and an installation position of multiple air injection pipes are predetermined, and the air injection pipes have optimal efficiency. Also, the air injection pipes are installed for a mixture of a fuel and the air to be swirled in a combustion chamber. Also, the down shot multi-stage gasifier having the air injection pipe can easily improve the carbon change rate and gasification efficiency.

Description

DOWN SHOT MULTI-STAGE GASIFIER {DOWN SHOT MULTI-STAGE GASIFIER}

The present invention relates to an additional structure of a downshot multi-stage gasifier, and more particularly, to a gasifier apparatus for generating a fuel gas by spraying and pulverizing coal and air into a gasifier, Stage multistage gasifier having a plurality of air injection pipes capable of increasing the combustion efficiency of the pulverized coal while improving the generation rate.

As a next generation power generation system using coal, Integrated Gasification Combined Cycle (IGCC) is proposed as an alternative.

From the viewpoint of high cleanliness and environmental friendliness, coal gasification combined cycle power generation facilities can greatly reduce emissions of sulfur oxides, nitrogen oxides, and dusts compared with conventional coal-fired thermal power generation systems. In addition, the coal gasification combined cycle power plant collects ash in the form of slag after being melted, not in dust form, so it is environmentally safe, and the sulfur (S) element produced in the slag and desulfurization process is recovered It has the advantage of being used as an economical by-product.

Such a coal gasification combined cycle power generation system includes a gasifier for extracting coal gas by reacting pulverized coal and an oxidizer at high pressure.

Here, the gasifier is supplied with the pulverized coal through the burner in an air stream transportation method, and reacts with the oxidizer. The reaction position and the slag generation temperature in the gasifier are changed according to the direction in which the oxidizer is supplied. Therefore, stable operation of the gasifier is difficult.

In addition, the carbonization of the pulverized coal is sufficiently carried out and the carbon conversion should proceed smoothly. However, the gasification efficiency and the carbon conversion rate of the multistage gasifier of the bottom-up type are deteriorated.

Korean Patent No. 1616975

The present invention relates to a gasifier device for injecting pulverized coal and air into a gasifier and generating fuel gas through the pulverized coal and air, and is also capable of increasing the combustion efficiency of the pulverized coal while suppressing the supply of oxygen, The present invention is directed to provide a gasifier for inducing a swirl in a combustion chamber by providing a plurality of air injection tubes having a plurality of air injection tubes.

The object of the present invention is achieved by a burner comprising: a combustion chamber in which a predetermined space is provided and combustion of pulverized coal occurs and in which fuel gas is generated by combustion of pulverized coal; A pipe-shaped flow pipe 20 connected to an upper portion of the combustion chamber 10 and extending in a vertical direction; At least one burner (30) provided at an upper portion of the combustion chamber (10); And at least one air injection pipe (40) provided at a lower side of the flow pipe (20), wherein at least one air injection pipe (40) is provided, And the air injected from the air injection pipe 40 is drawn into the flow pipe 20 so as to rotate downward along the inner side surface of the pipe- , Wherein the drawing angle of the air injection pipe (40) downward is 20 degrees or more and 45 degrees or less.

In this case, the combustion chamber 10 includes a pipe-shaped combustion chamber body 11 having a predetermined diameter; A first inclined portion 12 provided at a lower portion of the combustion chamber body 11 and extending downward at a predetermined angle in the direction of the center of the combustion chamber body 11; And a second inclined portion 13 provided at an upper portion of the combustion chamber body 11 and having an inclination of a predetermined angle toward the center of the combustion chamber body 11 and extending upward to directly engage with the flow pipe 20 can do.

The flow pipe 20 is connected to the second inclined portion 13 of the combustion chamber 10 and extends for a predetermined length in the vertical direction to guide the combustion gas generated in the combustion chamber 10 upward can do.

The burner 30 is provided in the second inclined portion 13 of the combustion chamber 10 so that the burning direction of the burner 30 is directed toward the center of the combustion chamber 10, And at least one or more burners 30 may be arranged in the circumferential direction at regular intervals.

Preferably, the gas discharge port 50 is provided on the flow pipe 20 and extends upward in the vertical direction to discharge the combustion gas.

The sludge outlet 60 may further include a sludge outlet 60 provided below the combustion chamber 10 and extending downward in the vertical direction to discharge the sludge.

In the downshot multi-stage gasifier provided with the air injection pipe according to the present invention having the above-described structure, the combustion efficiency can be improved when the pulverized coal is burned.

In particular, a plurality of air injection pipes are specified such that their shapes and installation positions are specified, have optimum efficiency, and a mixture of fuel and air is swirled inside the combustion chamber.

In addition, by providing the downshot multi-stage gasifier having the above-described structure, it is possible to easily increase the gasification efficiency and the carbon conversion rate.

1 is a front view of a gasifier including an air injection tube showing one embodiment of the present invention.
Figure 2 is a top view of a gasifier including an air injection tube illustrating one embodiment of the present invention.
FIG. 3 is a CFD of a gasifier including an air injection tube showing one embodiment of the present invention. FIG.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

1 is a front view of a gasifier including an air injection tube showing one embodiment of the present invention.

Referring to FIG. 1, pulverized coal produced by crushing fossil fuels such as coal is supplied to the combustion chamber, and the pulverized coal is checked for the composition of the gasifier that converts the pulverized coal into fuel gas instead of carbon dioxide as it is burned in the oxygen- It is possible to do.

More specifically, a combustion chamber 10 in which a predetermined space is provided and combustion of pulverized coal is generated, and in which fuel gas is generated by the combustion of pulverized coal, a pipe-shaped flow tube 10 connected to the upper portion of the combustion chamber 10, (20), at least one burner (30) provided at an upper portion of the combustion chamber (10), and at least one air injection pipe (40) provided at a lower portion of the flow pipe (20) It is possible that the firearm 100 is provided.

Specifically, the combustion chamber is located in the gasifier as described above, and the fines generated by crushing and burning the fossil fuel such as coal are supplied to the combustion chamber, and the pulverized coal is supplied to the combustion chamber It is possible to perform the role of converting fuel gas into carbon dioxide instead of carbon dioxide as it burns.

The fuel gas generated by the combustion of pulverized coal or the like in the combustion chamber is preferably guided to the upper and the outer sides through the pipe-shaped flow pipe 20 connected to the upper portion of the combustion chamber 10 and extending in the vertical direction.

In addition, it is preferable that the burned pulverized coal or the like is supplied by a plurality of burners introduced into the combustion chamber from the outside of the combustion chamber, and combustion starts at the end of the burner.

In this case, the combustion chamber 10 has a pipe-shaped combustion chamber main body 11 provided with a predetermined diameter, and a slope at a predetermined angle in the direction of the center of the combustion chamber main body 11 A first inclined portion 12 extending downward and a first inclined portion 12 extending downward and a first inclined portion 12 extending upwardly and having an inclination of a predetermined angle in the center direction of the combustion chamber body 11, It is possible to include the second inclined portion 13 which is formed by the second inclined portion 13.

The flow pipe 20 is connected to the second inclined portion 13 of the combustion chamber 10 and extends for a predetermined length in the vertical direction to guide the combustion gas generated in the combustion chamber 10 upward .

The burner 30 is provided in the second inclined portion 13 of the combustion chamber 10 so that the burning direction of the burner 30 is directed toward the center of the combustion chamber 10, And at least one or more burners 30 are arranged in the circumferential direction at regular intervals.

The installation angle of a specific burner is generally inserted into the combustion chamber in a direction horizontal to the ground based on the burner. However, when considering the shape including the first and second inclined portions of the combustion chamber, It is preferable to draw the lead-in angle of the burner downward to 20 degrees or more and 45 degrees or less.

Therefore, it is preferable to set the installation position of the burner so that the flame of the pulverized coal which is injected and burned through the plurality of burners can be collected at one point in the center of the combustion chamber.

The air injection pipe 40 is provided on the lower side of the flow pipe 20 so that the air injection direction of the air injection pipe 40 rotates along the inner side surface of the pipe- It is possible to provide at least one air injection pipe 40 having a predetermined installation angle of the air injection pipe 40 and arranged in the circumferential direction at regular intervals.

In this case, it is general that the installation angle of the air injection pipe is inserted into the flow pipe in a direction parallel to the ground on the basis of the air injection pipe. However, when considering the pull-in angle and the installation shape of the burner, It is desirable to draw the drawing angle of the drawn-in air spraying tube downward to not less than 20 degrees and not more than 45 degrees.

In addition, not only this, but also the angle of inclination between the right and left of the air injection pipe can have an optimum installation angle. Specifically, air blown from the air injection pipe along the inner wall surface of the flow pipe generates a swirl It is preferable to have a pull-in angle that is inclined to the left or right side of 70 degrees or more and 85 degrees or less in the direction of the inner wall surface of the flow tube so as to be able to descend.

A gas discharge port 50 provided above the flow pipe 20 and extending upward in the vertical direction to discharge a combustion gas or a sludge discharge pipe 50 provided below the combustion chamber 10 and extending downward in the vertical direction to discharge sludge, It is possible to further include the outlet 60.

The gas outlet serves to feed pulverized coal generated by crushing fossil fuels such as coal to the combustion chamber and to induce and discharge the pulverized fuel gas to the upper portion instead of carbon dioxide as it burns in a combustion chamber in a state of oxygen deficiency .

In addition, the sludge discharge port serves to guide and discharge residuals remaining after the coal is burned down.

Figure 2 is a top view of a gasifier including an air injection tube illustrating one embodiment of the present invention.

Referring to FIG. 2, it is possible to confirm the inclination angle of the air injection pipe to the left or right side of the air injection pipe according to the present invention.

More specifically, the burner 30 is provided in the second inclined portion 13 of the combustion chamber 10, and the burner 30 is installed at a predetermined burner installation angle such that the burning direction of the burner 30 is directed toward the center of the combustion chamber 10 And at least one or more burners 30 are arranged in the circumferential direction at regular intervals.

The installation angle of a specific burner is generally inserted into the combustion chamber in a direction horizontal to the ground based on the burner. However, when considering the shape including the first and second inclined portions of the combustion chamber, It is preferable to draw the lead-in angle of the burner downward to 20 degrees or more and 45 degrees or less.

Therefore, it is preferable to set the installation position of the burner so that the flame of the pulverized coal which is injected and burned through the plurality of burners can be collected at one point in the center of the combustion chamber.

The air injection pipe 40 is provided on the lower side of the flow pipe 20 so that the air injection direction of the air injection pipe 40 rotates along the inner side surface of the pipe- It is possible to provide at least one air injection pipe 40 having a predetermined installation angle of the air injection pipe 40 and arranged in the circumferential direction at regular intervals.

In this case, it is general that the installation angle of the air injection pipe is inserted into the flow pipe in a direction parallel to the ground on the basis of the air injection pipe. However, when considering the pull-in angle and the installation shape of the burner, It is desirable to draw the drawing angle of the drawn-in air spraying tube downward to not less than 20 degrees and not more than 45 degrees.

In addition, not only this, but also the angle of inclination between the right and left of the air injection pipe can have an optimum installation angle. Specifically, air blown from the air injection pipe along the inner wall surface of the flow pipe generates a swirl It is preferable to have a pull-in angle that is inclined to the left or right side of 70 degrees or more and 85 degrees or less in the direction of the inner wall surface of the flow tube so as to be able to descend.

FIG. 3 is a CFD of a gasifier including an air injection tube showing one embodiment of the present invention. FIG.

Referring to FIG. 3, it is possible to confirm the circulation state of the heat through the characteristic configuration of the present invention in which the burner and the air injection tube as described above are provided.

By providing a plurality of air injection pipes, which are features of the present invention, the air injection direction of the air injection pipe (40) can be rotated downward along the inner surface of the pipe-shaped flow pipe (20).

Therefore, it can be confirmed that the combustion efficiency and the carbon conversion rate can be dramatically increased as compared with the prior art.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: Combustion chamber
11: Combustion chamber body
12: first inclined portion
13: second inclined portion
20: Flow tube
30: Burner
40: air blower
50: gas outlet
60: Sludge outlet

Claims (6)

A combustion chamber (10) in which a predetermined space is provided and combustion of pulverized coal occurs, and a fuel gas is generated by combustion of pulverized coal;
A pipe-shaped flow pipe 20 connected to an upper portion of the combustion chamber 10 and extending in a vertical direction;
At least one burner (30) provided at an upper portion of the combustion chamber (10); And
And at least one air injection pipe (40) provided at a lower side of the flow pipe (20)
The air injection pipe (40)
At least one or more flow tubes 20 are arranged in the circumferential direction at regular intervals on the lower side of the flow tube 20,
The drawing angle of the air spray pipe 40 drawn into the flow pipe 20 so that the air injected from the air spray pipe 40 can travel downward along the inner surface of the pipe- (20) and less than 45 degrees in a downward direction. The method according to claim 1,
The combustion chamber (10)
A pipe-shaped combustion chamber body 11 provided with a predetermined diameter;
A first inclined portion 12 provided at a lower portion of the combustion chamber body 11 and extending downward at a predetermined angle in the direction of the center of the combustion chamber body 11; And
And a second inclined portion 13 provided at an upper portion of the combustion chamber body 11 and having an inclination of a predetermined angle toward the center of the combustion chamber body 11 and extending upward to directly engage with the flow pipe 20, (100). ≪ / RTI > The method according to claim 1,
The flow tube (20)
And is connected to the second inclined portion (13) of the combustion chamber (10) to extend a predetermined length in the vertical direction to guide the combustion gas generated in the combustion chamber (10) upward. The firearm (100). The method according to claim 1,
The burner (30)
Wherein at least one burner (30) is provided at a second inclined portion (13) of the combustion chamber (10) and has a predetermined burner installation angle such that the direction of the flame of the burner (30) is directed toward the center of the combustion chamber Are arranged in a circumferential direction with a predetermined interval therebetween. The method according to claim 1,
A gas outlet 50 provided above the flow pipe 20 and extending vertically upward to discharge the combustion gas;
Further comprising a downstream multistage gasifier (100). The method according to claim 1,
A sludge outlet (60) provided below the combustion chamber (10) and extending downward in the vertical direction to discharge the sludge;
Further comprising a downstream multistage gasifier (100).

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